Pyridoxate (BioDeep_00000001121)
Secondary id: BioDeep_00000229620, BioDeep_00000399905, BioDeep_00000405716
natural product human metabolite PANOMIX_OTCML-2023 Endogenous blood metabolite BioNovoGene_Lab2019 Volatile Flavor Compounds
代谢物信息卡片
化学式: C8H9NO4 (183.0531554)
中文名称: 4-吡哆酸
谱图信息:
最多检出来源 Homo sapiens(feces) 0.37%
Last reviewed on 2024-09-13.
Cite this Page
Pyridoxate. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China.
https://query.biodeep.cn/s/pyridoxate (retrieved
2024-11-22) (BioDeep RN: BioDeep_00000001121). Licensed
under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
分子结构信息
SMILES: CC1=NC=C(C(=C1O)C(=O)O)CO
InChI: InChI=1S/C8H9NO4/c1-4-7(11)6(8(12)13)5(3-10)2-9-4/h2,10-11H,3H2,1H3,(H,12,13)
描述信息
4-Pyridoxic acid is a member of the class of compounds known as methylpyridines. More specifically it is a 2-methylpyridine derivative substituted by a hydroxy group at C-3, a carboxy group at C-4, and a hydroxymethyl group at C-5. 4-Pyridoxic acid is the catabolic product of vitamin B6 (also known as pyridoxine, pyridoxal and pyradoxamine) and is excreted in the urine. Urinary levels of 4-pyridoxic acid are lower in females than in males and will be reduced even further in persons with a riboflavin deficiency. 4-Pyridoxic acid is formed by the action of aldehyde oxidase I (an endogenous enzyme) and by microbial enzymes (pyridoxal 4-dehydrogenase), an NAD-dependent aldehyde dehydrogenase. 4-pyridoxic acid can be further broken down by the gut microflora via the enzyme known as 4-pyridoxic acid dehydrogenase. This enzyme catalyzes the four-electron oxidation of 4-pyridoxic acid to 3-hydroxy-2-methylpyridine-4,5-dicarboxylate, using nicotinamide adenine dinucleotide (NAD) as a cofactor.
4-Pyridoxic acid is the catabolic product of vitamin B6 (also known as pyridoxine, pyridoxal and pyradoxamine) which is excreted in the urine. Urinary levels of 4-pyridoxic acid are lower in females than in males and will be reduced in persons with riboflavin deficiency. 4-Pyridoxic acid is formed by the action of aldehyde oxidase I (an endogenous enzyme) and by microbial enzymes (pyridoxal 4-dehydrogenase), an NAD-dependent aldehyde dehydrogenase. 4-pyridoxic acid can be further broken down by the gut microflora via 4-pyridoxic acid dehydrogenase. This enzyme catalyzes the four electron oxidation of 4-pyridoxic acid to 3-hydroxy-2-methylpyridine-4,5-dicarboxylate, using nicotinamide adenine dinucleotide as a cofactor. [HMDB]
Vitamin B6 is one of the B vitamins, and thus an essential nutrient.[1][2][3][4] The term refers to a group of six chemically similar compounds, i.e., "vitamers", which can be interconverted in biological systems. Its active form, pyridoxal 5′-phosphate, serves as a coenzyme in more than 140 enzyme reactions in amino acid, glucose, and lipid metabolism.[1][2][3]
Plants synthesize pyridoxine as a means of protection from the UV-B radiation found in sunlight[5] and for the role it plays in the synthesis of chlorophyll.[6] Animals cannot synthesize any of the various forms of the vitamin, and hence must obtain it via diet, either of plants, or of other animals. There is some absorption of the vitamin produced by intestinal bacteria, but this is not sufficient to meet dietary needs. For adult humans, recommendations from various countries' food regulatory agencies are in the range of 1.0 to 2.0 milligrams (mg) per day. These same agencies also recognize ill effects from intakes that are too high, and so set safe upper limits, ranging from as low as 25 mg/day to as high as 100 mg/day depending on the country. Beef, pork, fowl and fish are generally good sources; dairy, eggs, mollusks and crustaceans also contain vitamin B6, but at lower levels. There is enough in a wide variety of plant foods so that a vegetarian or vegan diet does not put consumers at risk for deficiency.[7]
Dietary deficiency is rare. Classic clinical symptoms include rash and inflammation around the mouth and eyes, plus neurological effects that include drowsiness and peripheral neuropathy affecting sensory and motor nerves in the hands and feet. In addition to dietary shortfall, deficiency can be the result of anti-vitamin drugs. There are also rare genetic defects that can trigger vitamin B6 deficiency-dependent epileptic seizures in infants. These are responsive to pyridoxal 5'-phosphate therapy.[8]
4-Pyridoxic acid is a catabolic product of vitamin B6 which is excreted in the urine.
同义名列表
28 个代谢物同义名
3-hydroxy-5-(hydroxymethyl)-2-methylpyridine-4-carboxylic acid; 3-Hydroxy-5-(hydroxymethyl)-2-methyl-4-pyridinecarboxylic acid; 3-Hydroxy-5-(hydroxymethyl)-2-methyl-4-pyridinecarboxylate; 3-Hydroxy-5-(hydroxymethyl)-2-methyl-isonicotinic acid; 3-Hydroxy-5-(hydroxymethyl)-2-methylisonicotinic acid; 3-Hydroxy-5-hydroxymethyl-2-methyl-isonicotinic acid; 2-Methyl-3-hydroxy-4-carboxy-5-hydroxymethylpyridine; 3-Hydroxy-5-hydroxymethyl-2-methyl-isonicotinsaeure; 3-Hydroxy-5-(hydroxymethyl)-2-methyl-isonicotinate; 3-Hydroxy-5-(hydroxymethyl)-2-methylisonicotinate; 3-Hydroxy-5-hydroxymethyl-2-methyl-isonicotinate; 4-Pyridoxinecarboxylic acid; Pyridoxinecarboxylic acid; 4-Pyridoxinecarboxylate; 4 Pyridoxylic acid; 4-Pyridoxylic acid; 4-Pyridoxinic acid; 4 Pyridoxinic acid; 4-Pyridoxinsaeure; 4 Pyridoxic acid; 4-Pyridoxic acid; Pyridoxic acid; 4-Pyridoxylate; 4-Pyridoxinate; 4-Pyridoxate; Pyridoxate; 4-Pyridoxic acid; 4-Pyridoxate
数据库引用编号
33 个数据库交叉引用编号
- ChEBI: CHEBI:17405
- KEGG: C00847
- PubChem: 6723
- HMDB: HMDB0000017
- Metlin: METLIN239
- MeSH: Pyridoxic Acid
- MetaCyc: CPD-1112
- KNApSAcK: C00052160
- foodb: FDB021874
- chemspider: 6467
- CAS: 82-82-6
- MoNA: PR100419
- MoNA: PR100876
- MoNA: PS104104
- MoNA: KO003835
- MoNA: KO003836
- MoNA: PS104102
- MoNA: KO003837
- MoNA: KO003834
- MoNA: PR100418
- MoNA: KO003833
- MoNA: PS104103
- MoNA: PS104101
- PMhub: MS000000001
- 3DMET: B00188
- NIKKAJI: J41.097G
- RefMet: 4-Pyridoxic acid
- RefMet: Pyridoxic acid
- medchemexpress: HY-113493
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-127
- PubChem: 4104
- KNApSAcK: 17405
- LOTUS: LTS0243263
分类词条
相关代谢途径
Reactome(4)
BioCyc(0)
PlantCyc(0)
代谢反应
66 个相关的代谢反应过程信息。
Reactome(56)
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
ATP + PROP-CoA + carbon dioxide ⟶ ADP + MEMA-CoA + Pi
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA + CoA-SH ⟶ choloyl-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
ATP + PROP-CoA + carbon dioxide ⟶ ADP + MEMA-CoA + Pi
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Metabolism of vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Metabolism of water-soluble vitamins and cofactors:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
- Vitamins B6 activation to pyridoxal phosphate:
H2O + Oxygen + PXL ⟶ H2O2 + PDXate
BioCyc(0)
WikiPathways(0)
Plant Reactome(0)
INOH(1)
- Vitamin B6 metabolism ( Vitamin B6 metabolism ):
H2O + O2 + Pyridoxal ⟶ 4-Pyridoxic acid + H2O2
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(9)
- Vitamin B6 Metabolism:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Vitamin B6 Metabolism:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Hypophosphatasia:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Vitamin B6 Metabolism:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Vitamin B6 Metabolism:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Vitamin B6 Metabolism:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Vitamin B6 Metabolism:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Hypophosphatasia:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
- Hypophosphatasia:
4-Pyridoxic acid ⟶ 2-Methyl-3-hydroxy-5-formylpyridine-4-carboxylate
PharmGKB(0)
19 个相关的物种来源信息
- 9645 - Ailuropoda: LTS0243263
- 9646 - Ailuropoda melanoleuca: 10.1371/JOURNAL.PONE.0143417
- 9646 - Ailuropoda melanoleuca: LTS0243263
- 7711 - Chordata: LTS0243263
- 33682 - Euglenozoa: LTS0243263
- 2759 - Eukaryota: LTS0243263
- 9606 - Homo sapiens: -
- 9606 - Homo sapiens: 10.1007/S11306-016-1051-4
- 5653 - Kinetoplastea: LTS0243263
- 40674 - Mammalia: LTS0243263
- 33208 - Metazoa: LTS0243263
- 5690 - Trypanosoma: LTS0243263
- 5691 - Trypanosoma brucei:
- 5691 - Trypanosoma brucei: 10.1128/AAC.00044-13
- 5691 - Trypanosoma brucei: 10.1371/JOURNAL.PNTD.0001618
- 5691 - Trypanosoma brucei: LTS0243263
- 5654 - Trypanosomatidae: LTS0243263
- 9632 - Ursidae: LTS0243263
- 569774 - 金线莲: -
在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:
- PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
- NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
- Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
- Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。
点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。
文献列表
- Lei Xu, Yu-Jing Fang, Meng-Meng Che, Alinuer Abulimiti, Chu-Yi Huang, Cai-Xia Zhang. Association of Serum Pyridoxal-5'-Phosphate, Pyridoxal, and PAr with Colorectal Cancer Risk: A Large-Scale Case-Control Study.
Nutrients.
2022 Jun; 14(12):. doi:
10.3390/nu14122389
. [PMID: 35745119] - Justin Towner, Brian Rago, David Rodrigues, Manoli Vourvahis, Chris Holliman. A novel hydrophilic interaction chromatography assay characterization of 4-pyridoxic acid, an emergent renal organic anion transporter 1/3 transporter biomarker.
Bioanalysis.
2021 Sep; 13(18):1391-1400. doi:
10.4155/bio-2021-0110
. [PMID: 34551579] - Yan Chen, Leila R Zelnick, Matthew P Huber, Ke Wang, Nisha Bansal, Andrew N Hoofnagle, Rajan K Paranji, Susan R Heckbert, Noel S Weiss, Alan S Go, Chi-Yuan Hsu, Harold I Feldman, Sushrut S Waikar, Rupal C Mehta, Anand Srivastava, Stephen L Seliger, James P Lash, Anna C Porter, Dominic S Raj, Bryan R Kestenbaum. Association Between Kidney Clearance of Secretory Solutes and Cardiovascular Events: The Chronic Renal Insufficiency Cohort (CRIC) Study.
American journal of kidney diseases : the official journal of the National Kidney Foundation.
2021 08; 78(2):226-235.e1. doi:
10.1053/j.ajkd.2020.12.005
. [PMID: 33421453] - Amais Ahmad, Kayode Ogungbenro, Annett Kunze, Frank Jacobs, Jan Snoeys, Amin Rostami-Hodjegan, Aleksandra Galetin. Population pharmacokinetic modeling and simulation to support qualification of pyridoxic acid as endogenous biomarker of OAT1/3 renal transporters.
CPT: pharmacometrics & systems pharmacology.
2021 05; 10(5):467-477. doi:
10.1002/psp4.12610
. [PMID: 33704919] - Huai Huang, Li-Ying Shi, Li-Liang Wei, Yu-Shuai Han, Wen-Jing Yi, Zhi-Wen Pan, Ting-Ting Jiang, Jing Chen, Hui-Hui Tu, Zhi-Bin Li, Yu-Ting Hu, Ji-Cheng Li. Plasma metabolites Xanthine, 4-Pyridoxate, and d-glutamic acid as novel potential biomarkers for pulmonary tuberculosis.
Clinica chimica acta; international journal of clinical chemistry.
2019 Nov; 498(?):135-142. doi:
10.1016/j.cca.2019.08.017
. [PMID: 31442449] - Tomomitsu Sado, Setsuko Nakata, Takahisa Tsuno, Masanori Sato, Yuka Misawa, Shoko Yamauchi, Yuji Inaba, Daisuke Kobayashi, Keiji Wada. Concentrations of various forms of vitamin B6 in ginkgo seed poisoning.
Brain & development.
2019 Mar; 41(3):292-295. doi:
10.1016/j.braindev.2018.10.007
. [PMID: 30366747] - Daisuke Kobayashi. [Food Poisoning by Ginkgo Seeds through Vitamin B6 Depletion].
Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan.
2019; 139(1):1-6. doi:
10.1248/yakushi.18-00136
. [PMID: 30606915] - Hong Shen, Vinay K Holenarsipur, T Thanga Mariappan, Dieter M Drexler, Joseph L Cantone, Prabhakar Rajanna, Shashyendra Singh Gautam, Yueping Zhang, Jinping Gan, Petia A Shipkova, Punit Marathe, W Griffith Humphreys. Evidence for the Validity of Pyridoxic Acid (PDA) as a Plasma-Based Endogenous Probe for OAT1 and OAT3 Function in Healthy Subjects.
The Journal of pharmacology and experimental therapeutics.
2019 01; 368(1):136-145. doi:
10.1124/jpet.118.252643
. [PMID: 30361237] - Tiina Jääskeläinen, Olli Kärkkäinen, Jenna Jokkala, Kaisa Litonius, Seppo Heinonen, Seppo Auriola, Marko Lehtonen, Kati Hanhineva, Hannele Laivuori. A Non-Targeted LC-MS Profiling Reveals Elevated Levels of Carnitine Precursors and Trimethylated Compounds in the Cord Plasma of Pre-Eclamptic Infants.
Scientific reports.
2018 10; 8(1):14616. doi:
10.1038/s41598-018-32804-5
. [PMID: 30279541] - Tomoyuki Akiyama, Takuo Kubota, Keiichi Ozono, Toshimi Michigami, Daisuke Kobayashi, Shinji Takeyari, Yuichiro Sugiyama, Masahiro Noda, Daisuke Harada, Noriyuki Namba, Atsushi Suzuki, Maiko Utoyama, Sachiko Kitanaka, Mitsugu Uematsu, Yusuke Mitani, Kunihiro Matsunami, Shigeru Takishima, Erika Ogawa, Katsuhiro Kobayashi. Pyridoxal 5'-phosphate and related metabolites in hypophosphatasia: Effects of enzyme replacement therapy.
Molecular genetics and metabolism.
2018 09; 125(1-2):174-180. doi:
10.1016/j.ymgme.2018.07.006
. [PMID: 30049651] - Hong Shen, David M Nelson, Regina V Oliveira, Yueping Zhang, Colleen A Mcnaney, Xiaomei Gu, Weiqi Chen, Ching Su, Michael D Reily, Petia A Shipkova, Jinping Gan, Yurong Lai, Punit Marathe, W Griffith Humphreys. Discovery and Validation of Pyridoxic Acid and Homovanillic Acid as Novel Endogenous Plasma Biomarkers of Organic Anion Transporter (OAT) 1 and OAT3 in Cynomolgus Monkeys.
Drug metabolism and disposition: the biological fate of chemicals.
2018 02; 46(2):178-188. doi:
10.1124/dmd.117.077586
. [PMID: 29162614] - Hui Zuo, Grethe S Tell, Per M Ueland, Ottar Nygård, Stein E Vollset, Øivind Midttun, Klaus Meyer, Arve Ulvik. The PAr index, an indicator reflecting altered vitamin B-6 homeostasis, is associated with long-term risk of stroke in the general population: the Hordaland Health Study (HUSK).
The American journal of clinical nutrition.
2018 01; 107(1):105-112. doi:
10.1093/ajcn/nqx012
. [PMID: 29381795] - Tomoyuki Akiyama, Yumiko Hayashi, Yoshiyuki Hanaoka, Takashi Shibata, Mari Akiyama, Hiroki Tsuchiya, Tokito Yamaguchi, Katsuhiro Kobayashi. Pyridoxal 5'-phosphate, pyridoxal, and 4-pyridoxic acid in the paired serum and cerebrospinal fluid of children.
Clinica chimica acta; international journal of clinical chemistry.
2017 Sep; 472(?):118-122. doi:
10.1016/j.cca.2017.07.032
. [PMID: 28778380] - D W Sullivan, R C Peterson, C V Mujer, S C Gad. A 7-day intravenous toxicity study and neurotoxicity assessment of pyridorin in Sprague-Dawley rats.
Human & experimental toxicology.
2017 Jul; 36(7):718-726. doi:
10.1177/0960327116661023
. [PMID: 27507076] - Björn Gylling, Robin Myte, Jörn Schneede, Göran Hallmans, Jenny Häggström, Ingegerd Johansson, Arve Ulvik, Per M Ueland, Bethany Van Guelpen, Richard Palmqvist. Vitamin B-6 and colorectal cancer risk: a prospective population-based study using 3 distinct plasma markers of vitamin B-6 status.
The American journal of clinical nutrition.
2017 04; 105(4):897-904. doi:
10.3945/ajcn.116.139337
. [PMID: 28275126] - Joyce Y Huang, Lesley M Butler, Øivind Midttun, Woon-Puay Koh, Per M Ueland, Renwei Wang, Aizhen Jin, Yu-Tang Gao, Jian-Min Yuan. Serum B6 vitamers (pyridoxal 5'-phosphate, pyridoxal, and 4-pyridoxic acid) and pancreatic cancer risk: two nested case-control studies in Asian populations.
Cancer causes & control : CCC.
2016 Dec; 27(12):1447-1456. doi:
10.1007/s10552-016-0822-6
. [PMID: 27830400] - Déborah Mathis, Lucia Abela, Monique Albersen, Céline Bürer, Lisa Crowther, Karin Beese, Hans Hartmann, Levinus A Bok, Eduard Struys, Sorina M Papuc, Anita Rauch, Martin Hersberger, Nanda M Verhoeven-Duif, Barbara Plecko. The value of plasma vitamin B6 profiles in early onset epileptic encephalopathies.
Journal of inherited metabolic disease.
2016 09; 39(5):733-741. doi:
10.1007/s10545-016-9955-8
. [PMID: 27342130] - Arve Ulvik, Eva R Pedersen, Gard Ft Svingen, Adrian McCann, Øivind Midttun, Ottar Nygård, Per M Ueland. Vitamin B-6 catabolism and long-term mortality risk in patients with coronary artery disease.
The American journal of clinical nutrition.
2016 06; 103(6):1417-25. doi:
10.3945/ajcn.115.126342
. [PMID: 27169836] - Sigrid Kalle, Risto Tanner, Jürgen Arund, Ruth Tomson, Merike Luman, Ivo Fridolin. 4-Pyridoxic Acid in the Spent Dialysate: Contribution to Fluorescence and Optical Monitoring.
PloS one.
2016; 11(9):e0162346. doi:
10.1371/journal.pone.0162346
. [PMID: 27598005] - Daisuke Kobayashi, Teruki Yoshimura, Atsushi Johno, Mika Ishikawa, Keiko Sasaki, Keiji Wada. Decrease in pyridoxal-5'-phosphate concentration and increase in pyridoxal concentration in rat plasma by 4'-O-methylpyridoxine administration.
Nutrition research (New York, N.Y.).
2015 Jul; 35(7):637-42. doi:
10.1016/j.nutres.2015.05.015
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