{"title":"Neurotransmitter Metabolism","description":null,"products":[{"product_id":"human-ache-elisa-kit-picokine-bhe21001683","title":"Human ACHE ELISA Kit PicoKine®","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAlso known as:\u003c\/strong\u003e ACHE, Acetylcholinesterase, EC 3.1.1.7.\u003c\/p\u003e\u003cp\u003eHuman \u003cstrong\u003eACHE\u003c\/strong\u003e (\u003cstrong\u003eACHE\u003c\/strong\u003e) is an established target in many assay panels, supporting hypothesis testing across diverse biological systems. This target is frequently investigated in \u003cstrong\u003eMolecular \u0026amp; Cellular Biology\u003c\/strong\u003e research contexts. As with many protein targets, abundance can be influenced by transcriptional regulation, secretion or shedding, proteolytic processing, and clearance. Quantitative measurement is often used to connect molecular changes with phenotypes such as stress responses, immune activation, differentiation, or tissue remodeling.\u003c\/p\u003e\u003ch2\u003eBiological context and interpretation\u003c\/h2\u003e\u003cp\u003eProtein-level readouts complement nucleic-acid measurements by reflecting post-transcriptional control and protein stability. Depending on the model system, changes may be transient or sustained, and may represent direct pathway engagement or secondary effects. When interpreting results, consider sample matrix effects, timing relative to stimulation or treatment, and whether complexes or modified forms of the analyte may be present.\u003c\/p\u003e\u003ch2\u003eWhy it matters in research\u003c\/h2\u003e\u003cul\u003e\n\u003cli\u003e\n\u003cstrong\u003eComparative quantification:\u003c\/strong\u003e Supports analysis across experimental groups, time points, or dose ranges.\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003ePathway context:\u003c\/strong\u003e Useful as part of a broader marker panel to triangulate biological mechanisms.\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003eModel characterization:\u003c\/strong\u003e Helps profile baseline vs perturbed states in cells, tissues, or biofluids.\u003c\/li\u003e\n\u003c\/ul\u003e\u003ch2\u003eRelated pathways and interacting partners\u003c\/h2\u003e\u003cp\u003eFor many targets, interpretability improves when measured alongside biologically connected markers (e.g., upstream regulators, downstream effectors, and cell-type indicators). Designing panels around a pathway hypothesis can help distinguish primary pathway activation from general stress or inflammation.\u003c\/p\u003e","brand":"Boster Bio","offers":[{"title":"96 wells\/kit, with removable strips.","offer_id":52920893112685,"sku":"EK2137","price":750.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/ek2137.png?v=1769078346"},{"product_id":"bovine-acetylcholinesterase-ache-elisa-kit-bhe12100193","title":"Bovine Acetylcholinesterase, ACHE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience and cardiovascular research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P23795\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Acetylcholinesterase (ACHE) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Acetylcholinesterase (ACHE) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAcetylcholinesterase (ACHE) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Acetylcholinesterase (ACHE) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eAChE\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952445911405,"sku":"E0183Bo-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E0183Bo.jpg?v=1769145923"},{"product_id":"chicken-acetylcholinesterase-ache-elisa-kit-bhe12101034","title":"Chicken Acetylcholinesterase, ACHE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (AChE)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience and cardiovascular research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P36196\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Acetylcholinesterase (AChE) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Acetylcholinesterase (AChE) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAcetylcholinesterase (AChE) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Acetylcholinesterase (AChE) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (AChE)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eAChE\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952452596077,"sku":"E0094Ch-96T","price":498.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E0094Ch.jpg?v=1769145982"},{"product_id":"human-acetylcholinesterase-ache-elisa-kit-bhe12102496","title":"Human Acetylcholinesterase, ACHE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience and cardiovascular research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P22303\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Acetylcholinesterase (ACHE) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Acetylcholinesterase (ACHE) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAcetylcholinesterase (ACHE) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Acetylcholinesterase (ACHE) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eACHE\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952462557549,"sku":"E0817Hu-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E0817Hu.jpg?v=1769146085"},{"product_id":"human-tryptophan-hydroxylase-1-tph1-elisa-kit-bhe12104628","title":"Human Tryptophan Hydroxylase 1, TPH1 ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTryptophan Hydroxylase 1 (TPH1)\u003c\/strong\u003e is a molecular target commonly studied in signal transduction research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P17752\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Tryptophan Hydroxylase 1 (TPH1) is frequently examined in relation to mechanistic biology studies, biomarker-focused profiling, and disease-model research. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Tryptophan Hydroxylase 1 (TPH1) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eTryptophan Hydroxylase 1 (TPH1) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Tryptophan Hydroxylase 1 (TPH1) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTryptophan Hydroxylase 1 (TPH1)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eTPH1\u003c\/strong\u003e, \u003cstrong\u003eTPRH\u003c\/strong\u003e, and \u003cstrong\u003eTRPH\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952496800109,"sku":"E3095Hu-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E3095Hu.jpg?v=1769146363"},{"product_id":"human-amineoxidase-flavin-containing-b-maob-elisa-kit-bhe12104938","title":"Human Amineoxidase (Flavin-containing) B, MAOB ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase (Flavin-containing) B (MAOB)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience research. Enzymes influence signaling and metabolism through catalytic activity that can vary across tissues and physiological states.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P27338\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Amineoxidase (Flavin-containing) B (MAOB) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Amineoxidase (Flavin-containing) B (MAOB) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAmineoxidase (Flavin-containing) B (MAOB) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Amineoxidase (Flavin-containing) B (MAOB) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase (Flavin-containing) B (MAOB)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAmine oxidase [flavin-containing] B\u003c\/strong\u003e, \u003cstrong\u003eMAOB\u003c\/strong\u003e, and \u003cstrong\u003eMAO-B\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952503124333,"sku":"E3411Hu-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E3411Hu.jpg?v=1769146427"},{"product_id":"human-sodium-dependent-serotonin-transporter-slc6a4-elisa-kit-bhe12107551","title":"Human Sodium-dependent Serotonin Transporter, SLC6A4 ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eSodium-dependent Serotonin Transporter (SLC6A4)\u003c\/strong\u003e is a molecular target commonly studied in life science research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P31645\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Sodium-dependent Serotonin Transporter (SLC6A4) is frequently examined in relation to mechanistic biology studies, biomarker-focused profiling, and disease-model research. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Sodium-dependent Serotonin Transporter (SLC6A4) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eSodium-dependent Serotonin Transporter (SLC6A4) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Sodium-dependent Serotonin Transporter (SLC6A4) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eSodium-dependent Serotonin Transporter (SLC6A4)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003e5HT transporter\u003c\/strong\u003e, \u003cstrong\u003e5HTT\u003c\/strong\u003e, and \u003cstrong\u003e5-HTT\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952602444141,"sku":"E6189Hu-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E6189Hu.jpg?v=1769146923"},{"product_id":"human-tryptophan-5-hydroxylase-2-tph2-elisa-kit-bhe12107693","title":"Human Tryptophan 5-hydroxylase 2, TPH2 ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTryptophan 5-hydroxylase 2 (TPH2)\u003c\/strong\u003e is a molecular target commonly studied in life science research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: Q8IWU9\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Tryptophan 5-hydroxylase 2 (TPH2) is frequently examined in relation to mechanistic biology studies, biomarker-focused profiling, and disease-model research. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Tryptophan 5-hydroxylase 2 (TPH2) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eTryptophan 5-hydroxylase 2 (TPH2) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Tryptophan 5-hydroxylase 2 (TPH2) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTryptophan 5-hydroxylase 2 (TPH2)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eADHD7\u003c\/strong\u003e, \u003cstrong\u003eNeuronal tryptophan hydroxylase\u003c\/strong\u003e, and \u003cstrong\u003eNTPH\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952606376301,"sku":"E6331Hu-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E6331Hu.jpg?v=1769146951"},{"product_id":"mouse-acetylcholinesterase-ache-elisa-kit-bhe12109211","title":"Mouse Acetylcholinesterase, ACHE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience and cardiovascular research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P21836\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Acetylcholinesterase (ACHE) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Acetylcholinesterase (ACHE) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAcetylcholinesterase (ACHE) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Acetylcholinesterase (ACHE) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eACHE\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952620761453,"sku":"E1347Mo-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E1347Mo.jpg?v=1769147062"},{"product_id":"mouse-amineoxidase-flavin-containing-b-maob-elisa-kit-bhe12109645","title":"Mouse Amineoxidase, Flavin-containing B, MAOB ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase, Flavin-containing B (MAOB)\u003c\/strong\u003e is a molecular target commonly studied in life science research. Enzymes influence signaling and metabolism through catalytic activity that can vary across tissues and physiological states.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: Q8BW75\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Amineoxidase, Flavin-containing B (MAOB) is frequently examined in relation to mechanistic biology studies, biomarker-focused profiling, and disease-model research. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Amineoxidase, Flavin-containing B (MAOB) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAmineoxidase, Flavin-containing B (MAOB) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Amineoxidase, Flavin-containing B (MAOB) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase, Flavin-containing B (MAOB)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAmine oxidase [flavin-containing] B\u003c\/strong\u003e, \u003cstrong\u003eMAOB\u003c\/strong\u003e, and \u003cstrong\u003eMAO-B\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952631509357,"sku":"E1833Mo-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E1833Mo.jpg?v=1769147116"},{"product_id":"porcine-aromatic-l-amino-acid-decarboxylase-ddc-elisa-kit-bhe12110843","title":"Porcine Aromatic-L-amino-acid Decarboxylase, DDC ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAromatic-L-amino-acid Decarboxylase (DDC)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience, cancer, and metabolism research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P80041\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Aromatic-L-amino-acid Decarboxylase (DDC) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Aromatic-L-amino-acid Decarboxylase (DDC) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAromatic-L-amino-acid Decarboxylase (DDC) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Aromatic-L-amino-acid Decarboxylase (DDC) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAromatic-L-amino-acid Decarboxylase (DDC)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAADC\u003c\/strong\u003e, \u003cstrong\u003eAromatic-L-amino-acid decarboxylase\u003c\/strong\u003e, and \u003cstrong\u003eDDC\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952661328237,"sku":"E0457Po-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E0457Po.jpg?v=1769147307"},{"product_id":"porcine-amineoxidase-flavin-containing-b-maob-elisa-kit-bhe12110901","title":"Porcine Amineoxidase Flavin-containing B, MAOB ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase Flavin-containing B (MAOB)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience, signal transduction, and metabolism research. Enzymes influence signaling and metabolism through catalytic activity that can vary across tissues and physiological states.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: Q6PLK3\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Amineoxidase Flavin-containing B (MAOB) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Amineoxidase Flavin-containing B (MAOB) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAmineoxidase Flavin-containing B (MAOB) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Amineoxidase Flavin-containing B (MAOB) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase Flavin-containing B (MAOB)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAmine oxidase [flavin-containing] B\u003c\/strong\u003e, \u003cstrong\u003eMAOB\u003c\/strong\u003e, and \u003cstrong\u003eMAO-B\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952661852525,"sku":"E0528Po-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E0528Po.jpg?v=1769147311"},{"product_id":"rat-acetylcholinesterase-ache-elisa-kit-bhe12111986","title":"Rat Acetylcholinesterase, ACHE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience and cardiovascular research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P37136\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Acetylcholinesterase (ACHE) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Acetylcholinesterase (ACHE) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAcetylcholinesterase (ACHE) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Acetylcholinesterase (ACHE) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eACHE\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952676499821,"sku":"E0724Ra-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E0724Ra.jpg?v=1769147388"},{"product_id":"rat-amineoxidase-flavin-containing-b-maob-elisa-kit-bhe12113056","title":"Rat Amineoxidase, Flavin-containing B, MAOB ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase, Flavin-containing B (MAOB)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience research. Enzymes influence signaling and metabolism through catalytic activity that can vary across tissues and physiological states.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P19643\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Amineoxidase, Flavin-containing B (MAOB) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Amineoxidase, Flavin-containing B (MAOB) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eAmineoxidase, Flavin-containing B (MAOB) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Amineoxidase, Flavin-containing B (MAOB) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAmineoxidase, Flavin-containing B (MAOB)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAmine oxidase [flavin-containing] B\u003c\/strong\u003e, \u003cstrong\u003eMAOB\u003c\/strong\u003e, and \u003cstrong\u003eMAO-B\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952698257773,"sku":"E1857Ra-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E1857Ra.jpg?v=1769147490"},{"product_id":"rat-tryptophan-5-hydroxylase-2-tph2-elisa-kit-bhe12113436","title":"Rat Tryptophan 5-hydroxylase 2, TPH2 ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTryptophan 5-hydroxylase 2 (TPH2)\u003c\/strong\u003e is a molecular target commonly studied in life science research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: Q8CGU9\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Tryptophan 5-hydroxylase 2 (TPH2) is frequently examined in relation to mechanistic biology studies, biomarker-focused profiling, and disease-model research. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Tryptophan 5-hydroxylase 2 (TPH2) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eTryptophan 5-hydroxylase 2 (TPH2) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Tryptophan 5-hydroxylase 2 (TPH2) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTryptophan 5-hydroxylase 2 (TPH2)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eNeuronal tryptophan hydroxylase\u003c\/strong\u003e, \u003cstrong\u003eNtph\u003c\/strong\u003e, and \u003cstrong\u003eTPH2\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952711528813,"sku":"E2304Ra-96T","price":458.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E2304Ra.jpg?v=1769147561"},{"product_id":"fish-acetylcholinesterase-ache-elisa-kit-bhe12113838","title":"Fish Acetylcholinesterase, ACHE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eFish Acetylcholinesterase (AChE)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Fish Acetylcholinesterase (AChE) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Fish Acetylcholinesterase (AChE) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eFish Acetylcholinesterase (AChE) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Fish Acetylcholinesterase (AChE) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eFish Acetylcholinesterase (AChE)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eAChE\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952714674541,"sku":"EA0005Fi-96T","price":498.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/competitive_20kit_b53d8881-3084-4581-96c8-10bc19255172.jpg?v=1769151613"},{"product_id":"rat-choline-acetyltransferase-chat-elisa-kit-bhe12115755","title":"Rat Choline acetyltransferase, ChAT ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eCholine acetyltransferase (ChAT)\u003c\/strong\u003e is a molecular target commonly studied in neuroscience research. This molecule is commonly investigated as part of broader signaling, regulatory, or homeostatic networks.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P32738\u003c\/p\u003e\u003ch2\u003eBiological role and pathway context\u003c\/h2\u003e\u003cp\u003eIn the literature, Choline acetyltransferase (ChAT) is frequently examined in relation to neuronal signaling and synaptic function, neuroinflammation and glial responses, and neurodegeneration models. Depending on the model system, changes in abundance can be associated with shifts in signaling state, cellular composition, or tissue physiology.\u003c\/p\u003e\u003ch2\u003eExpression and regulation\u003c\/h2\u003e\u003cp\u003eExpression of Choline acetyltransferase (ChAT) can vary across tissues and cell types and may change under conditions such as immune activation, stress responses, injury, infection, or metabolic perturbation. Reported regulation may involve transcriptional control as well as post-translational processes that influence stability, localization, processing, or secretion.\u003c\/p\u003e\u003ch2\u003eResearch and disease relevance\u003c\/h2\u003e\u003cp\u003eCholine acetyltransferase (ChAT) has been reported as a useful readout in studies of physiological regulation and disease-associated processes. These observations make it relevant for hypothesis-driven research and biomarker exploration, while interpretation should remain grounded in the specific species, sample matrix, and study design.\u003c\/p\u003e\u003ch2\u003eInterpreting concentration measurements\u003c\/h2\u003e\u003cp\u003eMeasured levels of Choline acetyltransferase (ChAT) can reflect multiple biological factors, including production rate, turnover, compartmental distribution, and sample composition. As a result, conclusions are often supported by considering broader pathway context and complementary readouts rather than relying on a single analyte alone.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eCholine acetyltransferase (ChAT)\u003c\/strong\u003e may also be referred to as \u003cstrong\u003eChat\u003c\/strong\u003e in publications and databases. Nomenclature differences and species context can influence how results are compared across studies.\u003c\/p\u003e","brand":"Bioassay Technology Laboratory","offers":[{"title":"96T","offer_id":52952748818797,"sku":"E0725Ra-96T","price":458.0,"currency_code":"USD","in_stock":true},{"title":"48T","offer_id":52952748851565,"sku":"E0725Ra-48T","price":320.0,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/E0725Ra.jpg?v=1769147755"},{"product_id":"fish-acetylcholinesterase-ache-elisa-kit-bhe10500672","title":"Fish Acetylcholinesterase(AChE)ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase(AChE)ELISA Kit\u003c\/strong\u003e is a biological molecule commonly studied in neuroscience research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P04058\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor Acetylcholinesterase(AChE)ELISA Kit in serum, plasma, and tissue homogenates to better understand themes such as neuronal signaling and synaptic function, neuroinflammation, and neurodegeneration models. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in Acetylcholinesterase(AChE)ELISA Kit may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, synaptic proteins, neurotrophic factors, and neuroinflammatory markers) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, Acetylcholinesterase(AChE)ELISA Kit may also appear under names such as \u003cstrong\u003eacheAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eAChE\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that Acetylcholinesterase(AChE)ELISA Kit participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959410880877,"sku":"CSB-E17001Fh-96T","price":790.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959410913645,"sku":"CSB-E17001Fh-96TX5","price":2765.0,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959410946413,"sku":"CSB-E17001Fh-96TX10","price":5308.8,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-E17001Fh.png?v=1769246703"},{"product_id":"human-acetylcholinesterase-ache-elisa-kit-bhe10501019","title":"Human Acetylcholinesterase,AChE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e is a biological molecule commonly studied in neuroscience research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P22303\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor Acetylcholinesterase in serum, plasma, and tissue homogenates to better understand themes such as neuronal signaling and synaptic function, neuroinflammation, and neurodegeneration models. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in Acetylcholinesterase may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, synaptic proteins, neurotrophic factors, and neuroinflammatory markers) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, Acetylcholinesterase may also appear under names such as \u003cstrong\u003eACEE\u003c\/strong\u003e and \u003cstrong\u003eACES_HUMAN\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that Acetylcholinesterase participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959427035501,"sku":"CSB-E09670h-96T","price":790.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959427068269,"sku":"CSB-E09670h-96TX5","price":2765.0,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959427101037,"sku":"CSB-E09670h-96TX10","price":5308.8,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-E09670H.png?v=1769246743"},{"product_id":"mouse-acetylcholinesterase-ache-elisa-kit-bhe10505041","title":"Mouse Acetylcholinesterase(AChE)ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase(AChE)ELISA Kit\u003c\/strong\u003e is a biological molecule commonly studied in neuroscience research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P21836\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor Acetylcholinesterase(AChE)ELISA Kit in serum, plasma, cell culture supernates, and tissue homogenates to better understand themes such as neuronal signaling and synaptic function, neuroinflammation, and neurodegeneration models. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in Acetylcholinesterase(AChE)ELISA Kit may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, synaptic proteins, neurotrophic factors, and neuroinflammatory markers) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, Acetylcholinesterase(AChE)ELISA Kit may also appear under names such as \u003cstrong\u003eAche\u003c\/strong\u003e and \u003cstrong\u003eAcetylcholinesterase\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that Acetylcholinesterase(AChE)ELISA Kit participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959631278445,"sku":"CSB-E17521m-96T","price":790.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959631311213,"sku":"CSB-E17521m-96TX5","price":2765.0,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959631343981,"sku":"CSB-E17521m-96TX10","price":5308.8,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-E17521m.png?v=1769247294"},{"product_id":"mouse-choline-acetyltransterase-chat-elisa-kit-bhe10505380","title":"Mouse choline acetyltransterase(ChAT)ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003echoline acetyltransterase(ChAT)ELISA Kit (CHAT)\u003c\/strong\u003e is a biological molecule commonly studied in neuroscience research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: Q03059\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor choline acetyltransterase(ChAT)ELISA Kit in serum, plasma, tissue homogenates, and cell culture supernates to better understand themes such as neuronal signaling and synaptic function, neuroinflammation, and neurodegeneration models. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in choline acetyltransterase(ChAT)ELISA Kit may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, synaptic proteins, neurotrophic factors, and neuroinflammatory markers) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, choline acetyltransterase(ChAT)ELISA Kit may also appear under names such as \u003cstrong\u003eChatCholine O-acetyltransferase\u003c\/strong\u003e and \u003cstrong\u003eCHOACTase\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that choline acetyltransterase(ChAT)ELISA Kit participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959645139309,"sku":"CSB-E17524m-96T","price":595.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959645172077,"sku":"CSB-E17524m-96TX5","price":2439.5,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959645204845,"sku":"CSB-E17524m-96TX10","price":4683.8,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-E17524m.png?v=1769247338"},{"product_id":"mouse-tyrosine-hydroxylase-th-elisa-kit-bhe10506885","title":"Mouse tyrosine hydroxylase(TH)ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003etyrosine hydroxylase(TH)ELISA Kit\u003c\/strong\u003e is a biological molecule commonly studied in metabolism research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P24529\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor tyrosine hydroxylase(TH)ELISA Kit in serum, plasma, tissue homogenates, and cell culture supernates to better understand themes such as energy homeostasis, glucose and lipid metabolism, and insulin sensitivity and endocrine regulation. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in tyrosine hydroxylase(TH)ELISA Kit may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, insulin, adipokines, lipid-transport proteins, and stress-related enzymes) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, tyrosine hydroxylase(TH)ELISA Kit may also appear under names such as \u003cstrong\u003eTh\u003c\/strong\u003e and \u003cstrong\u003eTyrosine 3-monooxygenase\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that tyrosine hydroxylase(TH)ELISA Kit participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959705301357,"sku":"CSB-E17645m-96T","price":570.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959705334125,"sku":"CSB-E17645m-96TX5","price":1995.0,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959705366893,"sku":"CSB-E17645m-96TX10","price":3830.4,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-E17645M.png?v=1769247515"},{"product_id":"rat-acetylcholinesterase-ache-elisa-kit-bhe10507509","title":"Rat Acetylcholinesterase,AChE ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eAcetylcholinesterase (ACHE)\u003c\/strong\u003e is a biological molecule commonly studied in neuroscience research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P37136\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor Acetylcholinesterase in serum, plasma, and tissue homogenates to better understand themes such as neuronal signaling and synaptic function, neuroinflammation, and neurodegeneration models. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in Acetylcholinesterase may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, synaptic proteins, neurotrophic factors, and neuroinflammatory markers) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, Acetylcholinesterase may also appear under names such as \u003cstrong\u003eAcheAcetylcholinesterase\u003c\/strong\u003e and \u003cstrong\u003eAChE\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that Acetylcholinesterase participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959733285229,"sku":"CSB-E11304r-96T","price":790.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959733317997,"sku":"CSB-E11304r-96TX5","price":2765.0,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959733350765,"sku":"CSB-E11304r-96TX10","price":5308.8,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-E11304r.png?v=1769247599"},{"product_id":"rat-tryptophan-5-hydroxylase-2-tph2-elisa-kit-bhe10508774","title":"Rat Tryptophan 5-hydroxylase 2(TPH2) ELISA kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTryptophan 5-hydroxylase 2(TPH2)\u003c\/strong\u003e is a biological molecule commonly studied in neuroscience research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: Q8CGU9\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor Tryptophan 5-hydroxylase 2(TPH2) in serum, plasma, and tissue homogenates to better understand themes such as neuronal signaling and synaptic function, neuroinflammation, and neurodegeneration models. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in Tryptophan 5-hydroxylase 2(TPH2) may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, synaptic proteins, neurotrophic factors, and neuroinflammatory markers) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, Tryptophan 5-hydroxylase 2(TPH2) may also appear under names such as \u003cstrong\u003eTph2\u003c\/strong\u003e and \u003cstrong\u003eNtph\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that Tryptophan 5-hydroxylase 2(TPH2) participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959784796525,"sku":"CSB-EL024101RA-96T","price":695.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959784829293,"sku":"CSB-EL024101RA-96TX5","price":2571.5,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959784862061,"sku":"CSB-EL024101RA-96TX10","price":4937.3,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-EL024101RA.png?v=1769247765"},{"product_id":"rat-tyrosine-hydroxylase-th-elisa-kit-bhe10508788","title":"Rat Tyrosine Hydroxylase(TH) ELISA Kit","description":"\u003ch2\u003eBackground\u003c\/h2\u003e\u003cp\u003e\u003cstrong\u003eTyrosine Hydroxylase(TH)\u003c\/strong\u003e is a biological molecule commonly studied in metabolism research. It is commonly used as a molecular readout in mechanistic and biomarker-focused studies.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eUniProt\u003c\/strong\u003e: P04177\u003c\/p\u003e\u003ch2\u003eBiological context\u003c\/h2\u003e\u003cp\u003eResearchers often monitor Tyrosine Hydroxylase(TH) in serum and tissue homogenates to better understand themes such as energy homeostasis, glucose and lipid metabolism, and insulin sensitivity and endocrine regulation. In many model systems, measured levels can shift with physiology, experimental perturbation, or disease-associated changes, making careful biological interpretation important.\u003c\/p\u003e\u003ch2\u003eInterpreting changes in measured levels\u003c\/h2\u003e\u003cp\u003eDepending on sample matrix and study design, increases or decreases in Tyrosine Hydroxylase(TH) may reflect differences in expression, secretion, turnover, or compartmentalization rather than a single mechanism. Interpretation is typically strengthened by evaluating related molecules (for example, insulin, adipokines, lipid-transport proteins, and stress-related enzymes) and by keeping pre-analytical variables consistent across groups.\u003c\/p\u003e\u003ch2\u003eNomenclature\u003c\/h2\u003e\u003cp\u003eIn publications and databases, Tyrosine Hydroxylase(TH) may also appear under names such as \u003cstrong\u003eTh\u003c\/strong\u003e and \u003cstrong\u003eTyrosine 3-monooxygenase\u003c\/strong\u003e. When comparing studies, confirm that the reported analyte refers to the same molecule and species context.\u003c\/p\u003e\u003ch2\u003eWhy ELISA data are widely used\u003c\/h2\u003e\u003cp\u003eELISA is a common approach for quantitative measurement of proteins and biomarkers in complex samples, enabling comparisons across experimental groups and time points. When integrating results with other readouts, consider species biology, sample type, and the broader pathway context that Tyrosine Hydroxylase(TH) participates in.\u003c\/p\u003e","brand":"CUSABIO TECHNOLOGY LLC","offers":[{"title":"96 T","offer_id":52959785812333,"sku":"CSB-E13102r-96T","price":790.0,"currency_code":"USD","in_stock":true},{"title":"96 T×5","offer_id":52959785845101,"sku":"CSB-E13102r-96TX5","price":2765.0,"currency_code":"USD","in_stock":true},{"title":"96 T×10","offer_id":52959785877869,"sku":"CSB-E13102r-96TX10","price":5308.8,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/CSB-E13102r.png?v=1769247767"},{"product_id":"human-maoa-monoamine-oxidase-a-elisa-kit-bhe15201375","title":"Human MAOA(Monoamine Oxidase A) ELISA Kit","description":"\u003ch3\u003eScientific background\u003c\/h3\u003e\u003cp\u003e\u003cstrong\u003eMAOA (Monoamine Oxidase A)\u003c\/strong\u003e is a biologically relevant protein marker measured to support mechanistic studies and biomarker discovery (context dependent).\u003c\/p\u003e\u003cp\u003eProtein concentrations can change due to secretion, degradation, cell composition shifts, or post-transcriptional regulation, so ELISA readouts often add information beyond gene expression alone.\u003c\/p\u003e\u003cp\u003eQuantitative measurements help compare groups and time points using standardized curves and can be interpreted alongside phenotype and pathway-specific readouts.\u003c\/p\u003e\u003ch3\u003eWhy it matters\u003c\/h3\u003e\u003cul\u003e\n\u003cli\u003eQuantify \u003cstrong\u003eMAOA (Monoamine Oxidase A)\u003c\/strong\u003e to compare biological changes across conditions, doses, or time points.\u003c\/li\u003e\n\u003cli\u003eGenerate concentration data from a standard curve to support biomarker and mechanistic studies.\u003c\/li\u003e\n\u003c\/ul\u003e\u003ch3\u003eHow the ELISA works\u003c\/h3\u003e\u003cp\u003eDesigned for \u003cstrong\u003eHuman\u003c\/strong\u003e samples, this kit uses a \u003cstrong\u003eThe test principle applied in this kit is Sandwich enzyme immunoassay. The microtiter plate provided in this kit has been pre-coated with an antibody specific to Human MAOA. Standards or samples are added to the appropriate microtiter plate wells then with a biotin-conjugated antibody specific to Human MAOA. Next, Avidin conjugated to Horseradish Peroxidase (HRP) is added to each microplate well and incubated. After TMB substrate solution is added, only those wells that contain Human MAOA, biotin-conjugated antibody and enzyme-conjugated Avidin will exhibit a change in color. The enzyme-substrate reaction is terminated by the addition of sulphuric acid solution and the color change is measured spectrophotometrically at a wavelength of 450nm ± 10nm. The concentration of Human MAOA in the samples is then determined by comparing the OD of the samples to the standard curve.\u003c\/strong\u003e. 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After binding and washing, signal is converted to concentration using a standard curve.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eSample types\u003c\/strong\u003e: tissue homogenates, cell lysates and other biological fluids.\u003c\/p\u003e\u003cul\u003e\n\u003cli\u003e\n\u003cstrong\u003eDetection range\u003c\/strong\u003e: 1.57-100 ng\/mL\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003eSensitivity\/LoD\u003c\/strong\u003e: 0.61 ng\/mL\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003eAssay time\u003c\/strong\u003e: 3.5h\u003c\/li\u003e\n\u003c\/ul\u003e","brand":"ELK Biotechnology","offers":[{"title":"96 T","offer_id":52965676876141,"sku":"ELK3361-96T","price":595.4,"currency_code":"USD","in_stock":true},{"title":"48 T","offer_id":52965676908909,"sku":"ELK3361-48T","price":416.0,"currency_code":"USD","in_stock":true},{"title":"96 T X 5","offer_id":52965676941677,"sku":"ELK3361-96TX5","price":2531.1,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/1h1qbq4v21p4717oo1b_3455b7c9-841a-4c5c-bea0-466e75cc0925.jpg?v=1771844737"},{"product_id":"chicken-ache-acetylcholinesterase-elisa-kit-bhe15207887","title":"Chicken AchE(Acetylcholinesterase) ELISA Kit","description":"\u003ch3\u003eScientific background\u003c\/h3\u003e\u003cp\u003e\u003cstrong\u003eAchE (Acetylcholinesterase)\u003c\/strong\u003e is a biologically relevant protein marker measured to support mechanistic studies and biomarker discovery (context dependent).\u003c\/p\u003e\u003cp\u003eProtein concentrations can change due to secretion, degradation, cell composition shifts, or post-transcriptional regulation, so ELISA readouts often add information beyond gene expression alone.\u003c\/p\u003e\u003cp\u003eQuantitative measurements help compare groups and time points using standardized curves and can be interpreted alongside phenotype and pathway-specific readouts.\u003c\/p\u003e\u003ch3\u003eWhy it matters\u003c\/h3\u003e\u003cul\u003e\n\u003cli\u003eQuantify \u003cstrong\u003eAchE (Acetylcholinesterase)\u003c\/strong\u003e to compare biological changes across conditions, doses, or time points.\u003c\/li\u003e\n\u003cli\u003eGenerate concentration data from a standard curve to support biomarker and mechanistic studies.\u003c\/li\u003e\n\u003c\/ul\u003e\u003ch3\u003eHow the ELISA works\u003c\/h3\u003e\u003cp\u003eDesigned for \u003cstrong\u003eChicken\u003c\/strong\u003e samples, this kit uses a \u003cstrong\u003eThe test principle applied in this kit is Sandwich enzyme immunoassay. 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After binding and washing, signal is converted to concentration using a standard curve.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eSample types\u003c\/strong\u003e: serum, plasma, tissue homogenates, cell lysates, cell culture supernates and other biological fluids.\u003c\/p\u003e\u003cul\u003e\n\u003cli\u003e\n\u003cstrong\u003eDetection range\u003c\/strong\u003e: 31.25-2000 pg\/mL\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003eSensitivity\/LoD\u003c\/strong\u003e: 0.61 ng\/mL\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003eAssay time\u003c\/strong\u003e: 3.5h\u003c\/li\u003e\n\u003c\/ul\u003e","brand":"ELK Biotechnology","offers":[{"title":"96 T","offer_id":52966029427053,"sku":"ELK0122-96T","price":595.4,"currency_code":"USD","in_stock":true},{"title":"48 T","offer_id":52966029459821,"sku":"ELK0122-48T","price":416.0,"currency_code":"USD","in_stock":true},{"title":"96 T X 5","offer_id":52966029492589,"sku":"ELK0122-96TX5","price":2531.1,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/1h1qbq4v21p4717oo1b_b047db3d-6153-443e-9715-c65ff4fff0e9.jpg?v=1771845993"},{"product_id":"zebrafish-ache-acetylcholinesterase-elisa-kit-bhe15209208","title":"Zebrafish AchE(Acetylcholinesterase) ELISA Kit","description":"\u003ch3\u003eScientific background\u003c\/h3\u003e\u003cp\u003e\u003cstrong\u003eAchE (Acetylcholinesterase)\u003c\/strong\u003e is a biologically relevant protein marker measured to support mechanistic studies and biomarker discovery (context dependent).\u003c\/p\u003e\u003cp\u003eProtein concentrations can change due to secretion, degradation, cell composition shifts, or post-transcriptional regulation, so ELISA readouts often add information beyond gene expression alone.\u003c\/p\u003e\u003cp\u003eQuantitative measurements help compare groups and time points using standardized curves and can be interpreted alongside phenotype and pathway-specific readouts.\u003c\/p\u003e\u003ch3\u003eWhy it matters\u003c\/h3\u003e\u003cul\u003e\n\u003cli\u003eQuantify \u003cstrong\u003eAchE (Acetylcholinesterase)\u003c\/strong\u003e to compare biological changes across conditions, doses, or time points.\u003c\/li\u003e\n\u003cli\u003eGenerate concentration data from a standard curve to support biomarker and mechanistic studies.\u003c\/li\u003e\n\u003c\/ul\u003e\u003ch3\u003eHow the ELISA works\u003c\/h3\u003e\u003cp\u003eDesigned for \u003cstrong\u003eZebrafish\u003c\/strong\u003e samples, this kit uses a \u003cstrong\u003eThe test principle applied in this kit is Sandwich enzyme immunoassay. The microtiter plate provided in this kit has been pre-coated with an antibody specific to Zebrafish AchE. Standards or samples are added to the appropriate microtiter plate wells then with a biotin-conjugated antibody specific to Zebrafish AchE. Next, Avidin conjugated to Horseradish Peroxidase (HRP) is added to each microplate well and incubated. After TMB substrate solution is added, only those wells that contain Zebrafish AchE, biotin-conjugated antibody and enzyme-conjugated Avidin will exhibit a change in color. The enzyme-substrate reaction is terminated by the addition of sulphuric acid solution and the color change is measured spectrophotometrically at a wavelength of 450nm ± 10nm. The concentration of Zebrafish AchE in the samples is then determined by comparing the OD of the samples to the standard curve.\u003c\/strong\u003e. After binding and washing, signal is converted to concentration using a standard curve.\u003c\/p\u003e\u003cp\u003e\u003cstrong\u003eSample types\u003c\/strong\u003e: Serum, plasma, tissue homogenates and other biological fluids.\u003c\/p\u003e\u003cul\u003e\n\u003cli\u003e\n\u003cstrong\u003eDetection range\u003c\/strong\u003e: 0.63-40 ng\/mL\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003eSensitivity\/LoD\u003c\/strong\u003e: 0.22 ng\/mL\u003c\/li\u003e\n\u003cli\u003e\n\u003cstrong\u003eAssay time\u003c\/strong\u003e: 3.5h\u003c\/li\u003e\n\u003c\/ul\u003e","brand":"ELK Biotechnology","offers":[{"title":"96 T","offer_id":52966053052781,"sku":"ELK0367-96T","price":595.4,"currency_code":"USD","in_stock":true},{"title":"48 T","offer_id":52966053085549,"sku":"ELK0367-48T","price":416.0,"currency_code":"USD","in_stock":true},{"title":"96 T X 5","offer_id":52966053118317,"sku":"ELK0367-96TX5","price":2531.1,"currency_code":"USD","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0949\/7424\/7277\/files\/1h1qbq4v21p4717oo1b_96304802-52f5-4f37-bb14-c5ad47e6390d.jpg?v=1771846095"}],"url":"https:\/\/www.ebiohippo.com\/collections\/rs-neurotransmitter-metabolism.oembed?page=2","provider":"BioHippo","version":"1.0","type":"link"}