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PW132280

Pw132280 View Pathway
metabolic

alpha-Arbutin Drug Metabolism

Homo sapiens
alpha-Arbutin is a drug that is not metabolized by the human body as determined by current research and biotransformer analysis. alpha-Arbutin passes through the liver and is then excreted from the body mainly through the kidney.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ray Kruger

Created On: September 21, 2023 at 20:36

Last Updated: September 21, 2023 at 20:36

PW146772

Pw146772 View Pathway
drug action

alpha-Amyl cinnamaldehyde Drug Metabolism Action Pathway

Homo sapiens
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ray Kruger

Created On: October 07, 2023 at 19:00

Last Updated: October 07, 2023 at 19:00

PW088391

Pw088391 View Pathway
metabolic

Alpha Linolenic Acid and Linoleic Acid Metabolism

Drosophila melanogaster
Linoleic acid (LNA) is a polyunsaturated fatty acid (PUFA) precursor to the longer n−6 fatty acids commonly known as omega-6 fatty acids. Omega-6 fatty acids are characterized by a carbon-carbon double bond at the sixth carbon from the methyl group. Similarly, the PUFA alpha-linoleic acid (ALA) is the precursor to n-3 fatty acids known as omega-3 fatty acids which is characterized by a carbon-carbon double bond at the third carbon from the methyl group. Both LNA and ALA are essential dietary requirements for all mammals since they cannot be synthesized natively in the body. Both undergo a series of similar conversions to reach their final fatty acid form. LNA enters the cell and is catalyzed to gamma-linolenic acid (GLA) by acyl-CoA 6-desaturase (delta-6-desaturase/fatty acid desaturase 2). GLA is then converted to dihomo-gammalinolenic acid (DGLA) by elongation of very long chain fatty acids protein 5 (ELOVL5). DGLA is then converted to arachidonic acid (AA) by acyl-CoA (8-3)-desaturase (delta-5-desaturase/fatty acid desaturase 1). Arachidonic acid is then converted to a series of short lived metabolites called eicosanoids before finally reaching it's final fatty acid form.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ana Marcu

Created On: August 10, 2018 at 15:35

Last Updated: August 10, 2018 at 15:35

PW064568

Pw064568 View Pathway
metabolic

Alpha Linolenic Acid and Linoleic Acid Metabolism

Mus musculus
Linoleic acid (LNA) is a polyunsaturated fatty acid (PUFA) precursor to the longer n−6 fatty acids commonly known as omega-6 fatty acids. Omega-6 fatty acids are characterized by a carbon-carbon double bond at the sixth carbon from the methyl group. Similarly, the PUFA alpha-linoleic acid (ALA) is the precursor to n-3 fatty acids known as omega-3 fatty acids which is characterized by a carbon-carbon double bond at the third carbon from the methyl group. Both LNA and ALA are essential dietary requirements for all mammals since they cannot be synthesized natively in the body. Both undergo a series of similar conversions to reach their final fatty acid form. LNA enters the cell and is catalyzed to gamma-linolenic acid (GLA) by acyl-CoA 6-desaturase (delta-6-desaturase/fatty acid desaturase 2). GLA is then converted to dihomo-gammalinolenic acid (DGLA) by elongation of very long chain fatty acids protein 5 (ELOVL5). DGLA is then converted to arachidonic acid (AA) by acyl-CoA (8-3)-desaturase (delta-5-desaturase/fatty acid desaturase 1). Arachidonic acid is then converted to a series of short lived metabolites called eicosanoids before finally reaching it's final fatty acid form.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Carin Li

Created On: January 21, 2018 at 19:50

Last Updated: January 21, 2018 at 19:50

PW088448

Pw088448 View Pathway
metabolic

Alpha Linolenic Acid and Linoleic Acid Metabolism

Caenorhabditis elegans
Linoleic acid (LNA) is a polyunsaturated fatty acid (PUFA) precursor to the longer n−6 fatty acids commonly known as omega-6 fatty acids. Omega-6 fatty acids are characterized by a carbon-carbon double bond at the sixth carbon from the methyl group. Similarly, the PUFA alpha-linoleic acid (ALA) is the precursor to n-3 fatty acids known as omega-3 fatty acids which is characterized by a carbon-carbon double bond at the third carbon from the methyl group. Both LNA and ALA are essential dietary requirements for all mammals since they cannot be synthesized natively in the body. Both undergo a series of similar conversions to reach their final fatty acid form. LNA enters the cell and is catalyzed to gamma-linolenic acid (GLA) by acyl-CoA 6-desaturase (delta-6-desaturase/fatty acid desaturase 2). GLA is then converted to dihomo-gammalinolenic acid (DGLA) by elongation of very long chain fatty acids protein 5 (ELOVL5). DGLA is then converted to arachidonic acid (AA) by acyl-CoA (8-3)-desaturase (delta-5-desaturase/fatty acid desaturase 1). Arachidonic acid is then converted to a series of short lived metabolites called eicosanoids before finally reaching it's final fatty acid form.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ana Marcu

Created On: August 10, 2018 at 16:54

Last Updated: August 10, 2018 at 16:54

PW088190

Pw088190 View Pathway
metabolic

Alpha Linolenic Acid and Linoleic Acid Metabolism

Bos taurus
Linoleic acid (LNA) is a polyunsaturated fatty acid (PUFA) precursor to the longer n−6 fatty acids commonly known as omega-6 fatty acids. Omega-6 fatty acids are characterized by a carbon-carbon double bond at the sixth carbon from the methyl group. Similarly, the PUFA alpha-linoleic acid (ALA) is the precursor to n-3 fatty acids known as omega-3 fatty acids which is characterized by a carbon-carbon double bond at the third carbon from the methyl group. Both LNA and ALA are essential dietary requirements for all mammals since they cannot be synthesized natively in the body. Both undergo a series of similar conversions to reach their final fatty acid form. LNA enters the cell and is catalyzed to gamma-linolenic acid (GLA) by acyl-CoA 6-desaturase (delta-6-desaturase/fatty acid desaturase 2). GLA is then converted to dihomo-gammalinolenic acid (DGLA) by elongation of very long chain fatty acids protein 5 (ELOVL5). DGLA is then converted to arachidonic acid (AA) by acyl-CoA (8-3)-desaturase (delta-5-desaturase/fatty acid desaturase 1). Arachidonic acid is then converted to a series of short lived metabolites called eicosanoids before finally reaching it's final fatty acid form.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ana Marcu

Created On: August 10, 2018 at 10:48

Last Updated: August 10, 2018 at 10:48

PW000006

Pw000006 View Pathway
metabolic

Alpha Linolenic Acid and Linoleic Acid Metabolism

Homo sapiens
Linoleic acid (LNA) is a polyunsaturated fatty acid (PUFA) precursor to the longer n−6 fatty acids commonly known as omega-6 fatty acids. Omega-6 fatty acids are characterized by a carbon-carbon double bond at the sixth carbon from the methyl group. Similarly, the PUFA alpha-linoleic acid (ALA) is the precursor to n-3 fatty acids known as omega-3 fatty acids which is characterized by a carbon-carbon double bond at the third carbon from the methyl group. Both LNA and ALA are essential dietary requirements for all mammals since they cannot be synthesized natively in the body. Both undergo a series of similar conversions to reach their final fatty acid form. LNA enters the cell and is catalyzed to gamma-linolenic acid (GLA) by acyl-CoA 6-desaturase (delta-6-desaturase/fatty acid desaturase 2). GLA is then converted to dihomo-gammalinolenic acid (DGLA) by elongation of very long chain fatty acids protein 5 (ELOVL5). DGLA is then converted to arachidonic acid (AA) by acyl-CoA (8-3)-desaturase (delta-5-desaturase/fatty acid desaturase 1). Arachidonic acid is then converted to a series of short lived metabolites called eicosanoids before finally reaching it's final fatty acid form.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: WishartLab

Created On: August 01, 2013 at 13:54

Last Updated: August 01, 2013 at 13:54

PW088298

Pw088298 View Pathway
metabolic

Alpha Linolenic Acid and Linoleic Acid Metabolism

Rattus norvegicus
Linoleic acid (LNA) is a polyunsaturated fatty acid (PUFA) precursor to the longer n−6 fatty acids commonly known as omega-6 fatty acids. Omega-6 fatty acids are characterized by a carbon-carbon double bond at the sixth carbon from the methyl group. Similarly, the PUFA alpha-linoleic acid (ALA) is the precursor to n-3 fatty acids known as omega-3 fatty acids which is characterized by a carbon-carbon double bond at the third carbon from the methyl group. Both LNA and ALA are essential dietary requirements for all mammals since they cannot be synthesized natively in the body. Both undergo a series of similar conversions to reach their final fatty acid form. LNA enters the cell and is catalyzed to gamma-linolenic acid (GLA) by acyl-CoA 6-desaturase (delta-6-desaturase/fatty acid desaturase 2). GLA is then converted to dihomo-gammalinolenic acid (DGLA) by elongation of very long chain fatty acids protein 5 (ELOVL5). DGLA is then converted to arachidonic acid (AA) by acyl-CoA (8-3)-desaturase (delta-5-desaturase/fatty acid desaturase 1). Arachidonic acid is then converted to a series of short lived metabolites called eicosanoids before finally reaching it's final fatty acid form.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ana Marcu

Created On: August 10, 2018 at 13:21

Last Updated: August 10, 2018 at 13:21

PW146486

Pw146486 View Pathway
drug action

Alpelisib Drug Metabolism Action Pathway

Homo sapiens
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Ray Kruger

Created On: October 07, 2023 at 18:19

Last Updated: October 07, 2023 at 18:19

PW176373

Pw176373 View Pathway
metabolic

Alosetron Predicted Metabolism Pathway

Homo sapiens
Metabolites of Alosetron are predicted with biotransformer.
BioPAX SVG SBGN SBML PWML All files (.zip)

Creator: Omolola

Created On: December 07, 2023 at 16:26

Last Updated: December 07, 2023 at 16:26