PathWhiz ID | Pathway | Meta Data |
---|---|---|
PW088259View Pathway |
Vitamin B6 MetabolismBos taurus
As is commonly known there are many vitamins, the vitamin B complex group being one of the most well known. An important vitamin B complex group vitamin is vitamin B6, which is water-soluble. Moreover, this vitamin comes in various forms, one of which is an active form, known by the name pyridoxal phosphate or PLP. PLP serves as cofactor in a variety of reactions including from amino acid metabolism, (in particular in reactions such as transamination, deamination, and decarboxylation). To complicate matters however, there are in fact seven alternate forms of this same vitamin. These include pyridoxine (PN), pyridoxine 5’-phosphate (PNP), pyridoxal (PL), pyridoxamine (PM), pyridoxamine 5’-phosphate (PMP), 4-pyridoxic acid (PA), and the aforementioned pyridoxal 5’-phosphate (PLP). One of these forms, PA, is in fact a catabolite whose presence is found in excreted urine. For a person to absorb some of these active forms of vitamin B6 such as PLP or PMP they must first be dephosphorylized. This done via an alkaline enzyme phosphatase.
There are a wide variety of biproducts from the metabolism in question, most of which find there ways into the urine and from there are excreted. One such biproduct is 4-pyridoxic acid. In fact this last biproduct is found in such large quantities that estimates of vitamin B6 metabolism birproducts show that 4-pyridoxic acid is as much as 40-60% of all the biproducts.Of course, it is not the only product of metabolism. Others include,include pyridoxal, pyridoxamine, and pyridoxine.
|
Creator: Ana Marcu Created On: August 10, 2018 at 12:22 Last Updated: August 10, 2018 at 12:22 |
PW088414View Pathway |
Vitamin B6 MetabolismDrosophila melanogaster
As is commonly known there are many vitamins, the vitamin B complex group being one of the most well known. An important vitamin B complex group vitamin is vitamin B6, which is water-soluble. Moreover, this vitamin comes in various forms, one of which is an active form, known by the name pyridoxal phosphate or PLP. PLP serves as cofactor in a variety of reactions including from amino acid metabolism, (in particular in reactions such as transamination, deamination, and decarboxylation). To complicate matters however, there are in fact seven alternate forms of this same vitamin. These include pyridoxine (PN), pyridoxine 5’-phosphate (PNP), pyridoxal (PL), pyridoxamine (PM), pyridoxamine 5’-phosphate (PMP), 4-pyridoxic acid (PA), and the aforementioned pyridoxal 5’-phosphate (PLP). One of these forms, PA, is in fact a catabolite whose presence is found in excreted urine. For a person to absorb some of these active forms of vitamin B6 such as PLP or PMP they must first be dephosphorylized. This done via an alkaline enzyme phosphatase.
There are a wide variety of biproducts from the metabolism in question, most of which find there ways into the urine and from there are excreted. One such biproduct is 4-pyridoxic acid. In fact this last biproduct is found in such large quantities that estimates of vitamin B6 metabolism birproducts show that 4-pyridoxic acid is as much as 40-60% of all the biproducts.Of course, it is not the only product of metabolism. Others include,include pyridoxal, pyridoxamine, and pyridoxine.
|
Creator: Ana Marcu Created On: August 10, 2018 at 15:58 Last Updated: August 10, 2018 at 15:58 |
PW000053View Pathway |
Vitamin B6 MetabolismHomo sapiens
As is commonly known there are many vitamins, the vitamin B complex group being one of the most well known. An important vitamin B complex group vitamin is vitamin B6, which is water-soluble. Moreover, this vitamin comes in various forms, one of which is an active form, known by the name pyridoxal phosphate or PLP. PLP serves as cofactor in a variety of reactions including from amino acid metabolism, (in particular in reactions such as transamination, deamination, and decarboxylation). To complicate matters however, there are in fact seven alternate forms of this same vitamin. These include pyridoxine (PN), pyridoxine 5’-phosphate (PNP), pyridoxal (PL), pyridoxamine (PM), pyridoxamine 5’-phosphate (PMP), 4-pyridoxic acid (PA), and the aforementioned pyridoxal 5’-phosphate (PLP). One of these forms, PA, is in fact a catabolite whose presence is found in excreted urine. For a person to absorb some of these active forms of vitamin B6 such as PLP or PMP they must first be dephosphorylized. This done via an alkaline enzyme phosphatase.
There are a wide variety of biproducts from the metabolism in question, most of which find there ways into the urine and from there are excreted. One such biproduct is 4-pyridoxic acid. In fact this last biproduct is found in such large quantities that estimates of vitamin B6 metabolism birproducts show that 4-pyridoxic acid is as much as 40-60% of all the biproducts.Of course, it is not the only product of metabolism. Others include,include pyridoxal, pyridoxamine, and pyridoxine.
|
Creator: WishartLab Created On: August 01, 2013 at 13:54 Last Updated: August 01, 2013 at 13:54 |
PW064434View Pathway |
Vitamin B6 MetabolismArabidopsis thaliana
Vitamin B6 is a water-soluble vitamin essential for all living organisms. It is an important cofactor for enzymatic reactions in over one hundred different cellular reactions and processes. Vitamin B6 exists in different natural forms called vitamers, which are produced by plants, bacteria, and fungi, but not by animals and humans. These vitamers include: pyridoxal (PL), pyridoxine (PN) and pyridoxamine (PM) and their phosphorylated vitamers, PLP, PNP and PMP respectively. Vitamin B6 metabolic pathway was mainly characterized in E. coli, however most organisms, including plants, utilize an alternate pathway. In plants, the various vitamers can be produced via different specific pathways. In A. thaliana, this biosynthetic pathway involves few subpathways, which include: glycolysis, pentose phosphate pathway (PPP), and glyoxylate and dicarboxylate metabolism. Glyceraldehyde 3-phosphate produced by glycolysis and ribulose 5-phosphate produced by PPP are synthesized to pyridoxal 5-phosphate by a synthase. Pyridoxal 5-phosphate is then dephosphorylated to pyridoxal. Pyridoxal, a form of vitamin B6, could act as a precursor for butanoate metabolsim. Moreover, from PPP, 2-Oxo-3-hydroxy-4-phosphobutanoate is produced, this is synthesized to O-phospho-4-hydroxy-L-threonine and then to 4-hydroxy-L-threonine. Pyridoxine could also be produced after a multistep reaction from 4-hydroxy-L-threonine, which is then synthesized to pyridoxal. Glycoaldehyde produced from glyoxylate and dicarboxylate metabolism is converted to pyridoxine. Pyridoxine could also undergo phosphorylation where it is converted to pyridoxine phosphate which is then synthesized to pyridoxal 5-phosphate where the later is dephosphorylated to pyridoxal. Pyridoxal could also be synthesized to pyridoxamine, this that is phosphorylated to pyridoxamin 5-phosphate, which is then synthesized to pyridoxal 5-phosphate.
|
Creator: Hasan Badran Created On: December 05, 2017 at 15:42 Last Updated: December 05, 2017 at 15:42 |
PW122138View Pathway |
signaling
Vitamin C in the BrainHomo sapiens
Ascorbate (Vitamin C) is a very important molecule in the brain. Ascorbate is transported into brain through Sodium-dependent Vitamin C Transporter-2 (SVCT2), and will be reduced to dehydroascorbic acid, which is the oxidized form of ascorbate. Dehydroascorbic acid is transported into extracellular place and enter astrocyte space via Solute carrier family 2, facilitated glucose transporter members (GLUT family). Once dehydroascorbic acid in astrocyte cells, it is rapidly reduced to ascorbate to do further reactions that are associated with other pathways. Ascorbate is proposed as a neuromodulator of glutamatergic, dopaminergic, cholinergic and GABAergic transmission and related behaviors; it also has a number of other important functions, participating as a co-factor in several enzyme reactions including catecholamine synthesis, collagen production and regulation of HIF-1α.
|
Creator: xuan cao Created On: September 10, 2018 at 16:42 Last Updated: September 10, 2018 at 16:42 |
PW147049View Pathway |
Vitamin D Drug Metabolism PathwayHomo sapiens
|
Creator: Ray Kruger Created On: October 10, 2023 at 13:44 Last Updated: October 10, 2023 at 13:44 |
PW000782View Pathway |
physiological
Vitamin D in skinHomo sapiens
Trying to draw Vitamin D pathway in skin
|
Creator: Guest: Anonymous Created On: February 24, 2015 at 04:10 Last Updated: February 24, 2015 at 04:10 |
PW122363View Pathway |
Vitamin D MetabolismHomo sapiens
|
Creator: Guest: Anonymous Created On: March 05, 2019 at 05:23 Last Updated: March 05, 2019 at 05:23 |
PW146978View Pathway |
Vitamin D3 Drug Metabolism PathwayHomo sapiens
|
Creator: Ray Kruger Created On: October 10, 2023 at 13:34 Last Updated: October 10, 2023 at 13:34 |
PW088340View Pathway |
Vitamin K MetabolismRattus norvegicus
Vitamin K describes a group of lipophilic, hydrophobic vitamins that exist naturally in two forms (and synthetically in three others): vitamin K1, which is found in plants, and vitamin K2, which is synthesized by bacteria. Vitamin K is an important dietary component because it is necessary as a cofacter in the activation of vitamin K dependent proteins. Metabolism of vitamin K occurs mainly in the liver. In the first step, vitamin K is reduced to its quinone form by a quinone reductase such as NAD(P)H dehydrogenase. Reduced vitamin K is the form required to convert vitamin K dependent protein precursors to their active states. It acts as a cofactor to the integral membrane enzyme vitamin K-dependent gamma-carboxylase (along with water and carbon dioxide as co-substrates), which carboxylates glutamyl residues to gamma-carboxy-glutamic acid residues on certain proteins, activating them. Each converted glutamyl residue produces a molecule of vitamin K epoxide, and certain proteins may have more than one residue requiring carboxylation. To complete the cycle, the vitamin K epoxide is returned to vitamin K via the vitamin K epoxide reductase enzyme, also an integral membrane protein. The vitamin K dependent proteins include a number of important coagulation factors, such as prothrombin. Thus, warfarin and other coumarin drugs act as anticoagulants by blocking vitamin K epoxide reductase.
|
Creator: Ana Marcu Created On: August 10, 2018 at 14:00 Last Updated: August 10, 2018 at 14:00 |