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Pathways

PathWhiz ID Pathway Meta Data

PW175967

Pw175967 View Pathway
metabolic

Anagrelide Predicted Metabolism Pathway new

Homo sapiens
Metabolites of Anagrelide are predicted with biotransformer.

PW145303

Pw145303 View Pathway
drug action

Anastrozole Drug Metabolism Action Pathway

Homo sapiens

PW175968

Pw175968 View Pathway
metabolic

Anastrozole Predicted Metabolism Pathway new

Homo sapiens
Metabolites of Anastrozole are predicted with biotransformer.

PW064686

Pw064686 View Pathway
drug action

Andro

Homo sapiens

PW088270

Pw088270 View Pathway
metabolic

Androgen and Estrogen Metabolism

Bos taurus
This pathway describes the inactivation and catabolism of male (androgen) and female (estrogen) hormones. Many steroid hormones are transformed by sulfatases, dehydrogenases and glucuronide transferases to enhance their solubility and to facilitate their elimination. Inactivation means to convert an active compound into an inactive compound. Peripheral inactivation, which is inactivation caused by outside enzymes such as liver enzymes for example, is needed to maintain a steady-state level of plasma. This means that if either of these hormones are to be “chemical signals”, their half-life in the bloodstream has to be limited so that a variation in secretion rate can be emulated in the plasma. A large part of inactivation/catabolism occurs in the liver, although a little bit of catabolic activity does happen in the kidneys. Inactive androgens and estrogens are mostly eliminated in the urine. For this to happen, androgen and estrogen need to be converted to compounds that are less hydrophobic so that they are more soluble at higher concentrations. In this pathway, the conversion to a hydrophilic compound is an oxidation of a 17b-hydroxyl group. These hormones are needed for sexual development in both males and females.

PW088424

Pw088424 View Pathway
metabolic

Androgen and Estrogen Metabolism

Drosophila melanogaster
This pathway describes the inactivation and catabolism of male (androgen) and female (estrogen) hormones. Many steroid hormones are transformed by sulfatases, dehydrogenases and glucuronide transferases to enhance their solubility and to facilitate their elimination. Inactivation means to convert an active compound into an inactive compound. Peripheral inactivation, which is inactivation caused by outside enzymes such as liver enzymes for example, is needed to maintain a steady-state level of plasma. This means that if either of these hormones are to be “chemical signals”, their half-life in the bloodstream has to be limited so that a variation in secretion rate can be emulated in the plasma. A large part of inactivation/catabolism occurs in the liver, although a little bit of catabolic activity does happen in the kidneys. Inactive androgens and estrogens are mostly eliminated in the urine. For this to happen, androgen and estrogen need to be converted to compounds that are less hydrophobic so that they are more soluble at higher concentrations. In this pathway, the conversion to a hydrophilic compound is an oxidation of a 17b-hydroxyl group. These hormones are needed for sexual development in both males and females.

PW064569

Pw064569 View Pathway
metabolic

Androgen and Estrogen Metabolism

Mus musculus
This pathway describes the inactivation and catabolism of male (androgen) and female (estrogen) hormones. Many steroid hormones are transformed by sulfatases, dehydrogenases and glucuronide transferases to enhance their solubility and to facilitate their elimination. Inactivation means to convert an active compound into an inactive compound. Peripheral inactivation, which is inactivation caused by outside enzymes such as liver enzymes for example, is needed to maintain a steady-state level of plasma. This means that if either of these hormones are to be “chemical signals”, their half-life in the bloodstream has to be limited so that a variation in secretion rate can be emulated in the plasma. A large part of inactivation/catabolism occurs in the liver, although a little bit of catabolic activity does happen in the kidneys. Inactive androgens and estrogens are mostly eliminated in the urine. For this to happen, androgen and estrogen need to be converted to compounds that are less hydrophobic so that they are more soluble at higher concentrations. In this pathway, the conversion to a hydrophilic compound is an oxidation of a 17b-hydroxyl group. These hormones are needed for sexual development in both males and females.

PW000045

Pw000045 View Pathway
metabolic

Androgen and Estrogen Metabolism

Homo sapiens
This pathway describes the inactivation and catabolism of male (androgen) and female (estrogen) hormones. Many steroid hormones are transformed by sulfatases, dehydrogenases and glucuronide transferases to enhance their solubility and to facilitate their elimination. Inactivation means to convert an active compound into an inactive compound. Peripheral inactivation, which is inactivation caused by outside enzymes such as liver enzymes for example, is needed to maintain a steady-state level of plasma. This means that if either of these hormones are to be “chemical signals”, their half-life in the bloodstream has to be limited so that a variation in secretion rate can be emulated in the plasma. A large part of inactivation/catabolism occurs in the liver, although a little bit of catabolic activity does happen in the kidneys. Inactive androgens and estrogens are mostly eliminated in the urine. For this to happen, androgen and estrogen need to be converted to compounds that are less hydrophobic so that they are more soluble at higher concentrations. In this pathway, the conversion to a hydrophilic compound is an oxidation of a 17b-hydroxyl group. These hormones are needed for sexual development in both males and females.

PW088363

Pw088363 View Pathway
metabolic

Androgen and Estrogen Metabolism

Rattus norvegicus
This pathway describes the inactivation and catabolism of male (androgen) and female (estrogen) hormones. Many steroid hormones are transformed by sulfatases, dehydrogenases and glucuronide transferases to enhance their solubility and to facilitate their elimination. Inactivation means to convert an active compound into an inactive compound. Peripheral inactivation, which is inactivation caused by outside enzymes such as liver enzymes for example, is needed to maintain a steady-state level of plasma. This means that if either of these hormones are to be “chemical signals”, their half-life in the bloodstream has to be limited so that a variation in secretion rate can be emulated in the plasma. A large part of inactivation/catabolism occurs in the liver, although a little bit of catabolic activity does happen in the kidneys. Inactive androgens and estrogens are mostly eliminated in the urine. For this to happen, androgen and estrogen need to be converted to compounds that are less hydrophobic so that they are more soluble at higher concentrations. In this pathway, the conversion to a hydrophilic compound is an oxidation of a 17b-hydroxyl group. These hormones are needed for sexual development in both males and females.

PW088508

Pw088508 View Pathway
metabolic

Androgen and Estrogen Metabolism

Caenorhabditis elegans
This pathway describes the inactivation and catabolism of male (androgen) and female (estrogen) hormones. Many steroid hormones are transformed by sulfatases, dehydrogenases and glucuronide transferases to enhance their solubility and to facilitate their elimination. Inactivation means to convert an active compound into an inactive compound. Peripheral inactivation, which is inactivation caused by outside enzymes such as liver enzymes for example, is needed to maintain a steady-state level of plasma. This means that if either of these hormones are to be “chemical signals”, their half-life in the bloodstream has to be limited so that a variation in secretion rate can be emulated in the plasma. A large part of inactivation/catabolism occurs in the liver, although a little bit of catabolic activity does happen in the kidneys. Inactive androgens and estrogens are mostly eliminated in the urine. For this to happen, androgen and estrogen need to be converted to compounds that are less hydrophobic so that they are more soluble at higher concentrations. In this pathway, the conversion to a hydrophilic compound is an oxidation of a 17b-hydroxyl group. These hormones are needed for sexual development in both males and females.