Creatine (BioDeep_00000001312)
Secondary id: BioDeep_00000229636, BioDeep_00000399880
natural product human metabolite PANOMIX_OTCML-2023 Endogenous blood metabolite BioNovoGene_Lab2019
代谢物信息卡片
化学式: C4H9N3O2 (131.0695)
中文名称: 肌肝酸, 肌酸, 无水肌酸
谱图信息:
最多检出来源 Homo sapiens(blood) 18.53%
Last reviewed on 2024-06-29.
Cite this Page
Creatine. BioDeep Database v3. PANOMIX ltd, a top metabolomics service provider from China.
https://query.biodeep.cn/s/creatine (retrieved
2024-12-23) (BioDeep RN: BioDeep_00000001312). Licensed
under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
分子结构信息
SMILES: CN(CC(=O)O)C(=N)N
InChI: InChI=1S/C4H9N3O2/c1-7(4(5)6)2-3(8)9/h2H2,1H3,(H3,5,6)(H,8,9)
描述信息
Creatine, is a naturally occurring non-protein compound. It belongs to the class of organic compounds known as alpha amino acids and derivatives. These are amino acids in which the amino group is attached to the carbon atom immediately adjacent to the carboxylate group (alpha carbon), or a derivative thereof. Creatine is found in all vertebrates where it facilitates recycling of adenosine triphosphate (ATP). Its primary metabolic role is to combine with a phosphoryl group, via the enzyme creatine kinase, to generate phosphocreatine, which is used to regenerate ATP. Most of the human bodys total creatine and phosphocreatine stores are found in skeletal muscle (95\\\\\%), while the remainder is distributed in the blood, brain, testes, and other tissues. Creatine is not an essential nutrient as it is naturally produced in the human body from the amino acids glycine and arginine, with an additional requirement for methionine to catalyze the transformation of guanidinoacetate to creatine. In the first step of its biosynthesis glycine and arginine are combined by the enzyme arginine:glycine amidinotransferase (AGAT) to form guanidinoacetate, which is then methylated by guanidinoacetate N-methyltransferase (GAMT), using S-adenosyl methionine as the methyl donor. Creatine can also be obtained through the diet at a rate of about 1 gram per day from an omnivorous diet. A cyclic form of creatine, called creatinine, exists in equilibrium with its tautomer and with creatine. Clinically, there are three distinct disorders of creatine metabolism. Deficiencies in the two synthesis enzymes (AGAT and GAMT) can cause L-arginine:glycine amidinotransferase deficiency (caused by variants in AGAT) and guanidinoacetate methyltransferase deficiency (caused by variants in GAMT). Both disorders are inherited in an autosomal recessive manner. A third defect, creatine transporter defect, is caused by mutations in SLC6A8 and inherited in a X-linked manner. Creatine is widely used as a supplement by athletes. Its use can increase maximum power and performance in high-intensity anaerobic repetitive work (periods of work and rest) by 5 to 15\\\\\% (PMID: 24688272). Creatine has no significant effect on aerobic endurance, although it will increase power during short sessions of high-intensity aerobic exercise (PMID: 9662683).
[Spectral] Creatine (exact mass = 131.06948) and L-Aspartate (exact mass = 133.03751) were not completely separated on HPLC under the present analytical conditions as described in AC$XXX. Additionally some of the peaks in this data contains dimers and other unidentified ions.
[Spectral] Creatine (exact mass = 131.06948) and L-Cysteine (exact mass = 121.01975) were not completely separated on HPLC under the present analytical conditions as described in AC$XXX. Additionally some of the peaks in this data contains dimers and other unidentified ions.
Creatine is a essential, non-proteinaceous amino acid found in all animals and in some plants. Creatine is synthesized in the kidney, liver and pancreas from L-arginine, glycine and L-methionine.
Creatine. CAS Common Chemistry. CAS, a division of the American Chemical Society, n.d. https://commonchemistry.cas.org/detail?cas_rn=57-00-1 (retrieved 2024-06-29) (CAS RN: 57-00-1). Licensed under the Attribution-Noncommercial 4.0 International License (CC BY-NC 4.0).
Creatine, an endogenous amino acid derivative, plays an important role in cellular energy, especially in muscle and brain.
Creatine, an endogenous amino acid derivative, plays an important role in cellular energy, especially in muscle and brain.
同义名列表
41 个代谢物同义名
[[Amino(imino)methyl](methyl)amino]acetic acid; ((Amino(imino)methyl)(methyl)amino)acetic acid; ((Amino(imino)methyl)(methyl)amino)acetate; [[Amino(imino)methyl](methyl)amino]acetate; N-[(e)-AMINO(imino)methyl]-N-methylglycine; 2-[carbamimidoyl(methyl)amino]acetic acid; 2-(N-methylcarbamimidamido)acetic acid; N-(Aminoiminomethyl)-N-methyl-glycine; (N-Methylcarbamimidamido)acetic acid; N-(Aminoiminomethyl)-N-methylglycine; α-Methylguanidino acetic acid; alpha-Methylguanidino acetic acid; (alpha-Methylguanido)acetic acid; (N-Methylcarbamimidamido)acetate; N-Carbamimidoyl-N-methylglycine; Α-methylguanidino acetic acid; a-Methylguanidino acetic acid; alpha-Methylguanidino acetate; (alpha-Methylguanido)acetate; (a-Methylguanido)acetic acid; (Α-methylguanido)acetic acid; Α-methylguanidino acetate; a-Methylguanidino acetate; Methylguanidoacetic acid; (Α-methylguanido)acetate; N-Methyl-N-guanylglycine; (a-Methylguanido)acetate; Methylguanidoacetate; Methylglycocyamine; N-Amidinosarcosine; Creatine,anhydrous; Creatine hydrate; Cosmocair C 100; Phosphagen; Krebiozon; creatine; Kreatin; Creatin; Creatine; Creatine; Creatine
数据库引用编号
52 个数据库交叉引用编号
- ChEBI: CHEBI:16919
- KEGG: C00300
- KEGGdrug: D89574
- PubChem: 586
- HMDB: HMDB0000064
- Metlin: METLIN7
- DrugBank: DB00148
- ChEMBL: CHEMBL283800
- Wikipedia: Creatine
- MeSH: Creatine
- MetaCyc: CREATINE
- foodb: FDB005403
- chemspider: 566
- CAS: 57-00-1
- MoNA: PS018405
- MoNA: KNA00775
- MoNA: KNA00393
- MoNA: KO002517
- MoNA: KNA00773
- MoNA: PS018403
- MoNA: KNA00772
- MoNA: PS018402
- MoNA: PS018406
- MoNA: KNA00394
- MoNA: KNA00395
- MoNA: KNA00151
- MoNA: KNA00774
- MoNA: PS018401
- MoNA: KNA00152
- MoNA: PR100534
- MoNA: PS018404
- MoNA: KNA00392
- MoNA: KNA00560
- MoNA: KO002519
- MoNA: PR100111
- MoNA: KNA00149
- MoNA: KNA00561
- MoNA: KO002521
- MoNA: KO002520
- MoNA: KNA00559
- MoNA: KO002518
- PMhub: MS000000312
- PDB-CCD: CRN
- 3DMET: B00084
- NIKKAJI: J9.321A
- RefMet: Creatine
- medchemexpress: HY-W010388
- LOTUS: LTS0246540
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-962
- BioNovoGene_Lab2019: BioNovoGene_Lab2019-68
- PubChem: 3594
- KNApSAcK: 16919
分类词条
相关代谢途径
Reactome(0)
BioCyc(0)
PlantCyc(0)
代谢反应
79 个相关的代谢反应过程信息。
Reactome(12)
- Metabolism:
1-3-oxo-THA-CoA + CoA-SH ⟶ DHA-CoA + propionyl CoA
- Amino acid and derivative metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Metabolism of polyamines:
GAA + SAM ⟶ CRET + H+ + SAH
- Creatine metabolism:
GAA + SAM ⟶ CRET + H+ + SAH
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Amino acid and derivative metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Metabolism of polyamines:
GAA + SAM ⟶ CRET + H+ + SAH
- Creatine metabolism:
GAA + SAM ⟶ CRET + H+ + SAH
- Metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Amino acid and derivative metabolism:
2MACA-CoA + CoA ⟶ Ac-CoA + PROP-CoA
- Metabolism of polyamines:
GAA + SAM ⟶ CRET + H+ + SAH
- Creatine metabolism:
GAA + SAM ⟶ CRET + H+ + SAH
BioCyc(0)
Plant Reactome(0)
INOH(3)
- Arginine and Proline metabolism ( Arginine and Proline metabolism ):
ATP + Creatine ⟶ ADP + N-Phospho-creatine
- ATP + Creatine = ADP + N-Phospho-creatine ( Arginine and Proline metabolism ):
ATP + Creatine ⟶ ADP + N-Phospho-creatine
- Glycine and Serine metabolism ( Glycine and Serine metabolism ):
Guanidino-acetic acid + S-Adenosyl-L-methionine ⟶ Creatine + S-Adenosyl-L-homocysteine
PlantCyc(0)
COVID-19 Disease Map(0)
PathBank(63)
- Arginine and Proline Metabolism:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Prolidase Deficiency (PD):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Arginine: Glycine Amidinotransferase Deficiency (AGAT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperprolinemia Type II:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperprolinemia Type I:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Prolinemia Type II:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Guanidinoacetate Methyltransferase Deficiency (GAMT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Ornithine Aminotransferase Deficiency (OAT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Creatine Deficiency, Guanidinoacetate Methyltransferase Deficiency:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperornithinemia with Gyrate Atrophy (HOGA):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperornithinemia-Hyperammonemia-Homocitrullinuria [HHH-syndrome]:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- L-Arginine:Glycine Amidinotransferase Deficiency:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Arginine and Proline Metabolism:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Arginine and Proline Metabolism:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Arginine: Glycine Amidinotransferase Deficiency (AGAT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Guanidinoacetate Methyltransferase Deficiency (GAMT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperprolinemia Type I:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperprolinemia Type II:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Ornithine Aminotransferase Deficiency (OAT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Prolinemia Type II:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Prolidase Deficiency (PD):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Creatine Deficiency, Guanidinoacetate Methyltransferase Deficiency:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperornithinemia with Gyrate Atrophy (HOGA):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperornithinemia-Hyperammonemia-Homocitrullinuria [HHH-syndrome]:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- L-Arginine:Glycine Amidinotransferase Deficiency:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Arginine and Proline Metabolism:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Arginine and Proline Metabolism:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Arginine: Glycine Amidinotransferase Deficiency (AGAT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Guanidinoacetate Methyltransferase Deficiency (GAMT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperprolinemia Type I:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperprolinemia Type II:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Ornithine Aminotransferase Deficiency (OAT Deficiency):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Prolinemia Type II:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Prolidase Deficiency (PD):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Creatine Deficiency, Guanidinoacetate Methyltransferase Deficiency:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperornithinemia with Gyrate Atrophy (HOGA):
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Hyperornithinemia-Hyperammonemia-Homocitrullinuria [HHH-syndrome]:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- L-Arginine:Glycine Amidinotransferase Deficiency:
Guanidoacetic acid + S-Adenosylmethionine ⟶ Creatine + S-Adenosylhomocysteine
- Glycine and Serine Metabolism:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Dimethylglycine Dehydrogenase Deficiency:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Dihydropyrimidine Dehydrogenase Deficiency (DHPD):
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Sarcosinemia:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Non-Ketotic Hyperglycinemia:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Dimethylglycine Dehydrogenase Deficiency:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Hyperglycinemia, Non-Ketotic:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- 3-Phosphoglycerate Dehydrogenase Deficiency:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Glycine and Serine Metabolism:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- 3-Phosphoglycerate Dehydrogenase Deficiency:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Dihydropyrimidine Dehydrogenase Deficiency (DHPD):
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Dimethylglycine Dehydrogenase Deficiency:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Sarcosinemia:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Non-Ketotic Hyperglycinemia:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Hyperglycinemia, Non-Ketotic:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- 3-Phosphoglycerate Dehydrogenase Deficiency:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Glycine and Serine Metabolism:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Glycine and Serine Metabolism:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Glycine and Serine Metabolism:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Glycine and Serine Metabolism:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Dihydropyrimidine Dehydrogenase Deficiency (DHPD):
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Dimethylglycine Dehydrogenase Deficiency:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Sarcosinemia:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Non-Ketotic Hyperglycinemia:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
- Hyperglycinemia, Non-Ketotic:
Guanidoacetic acid + S-Adenosylhomocysteine ⟶ Creatine + S-Adenosylmethionine
PharmGKB(0)
100 个相关的物种来源信息
- 186623 - Actinopteri: LTS0246540
- 7898 - Actinopterygii: LTS0246540
- 8292 - Amphibia: LTS0246540
- 13345 - Ardisia crenata: 10.3389/FMOLB.2021.683671
- 6656 - Arthropoda: LTS0246540
- 4890 - Ascomycota: LTS0246540
- 33849 - Bacillariophyceae: LTS0246540
- 2836 - Bacillariophyta: LTS0246540
- 7371 - Calliphoridae: LTS0246540
- 7805 - Carcharhinidae: LTS0246540
- 7806 - Carcharhinus: LTS0246540
- 303933 - Carcharhinus altimus: 10.1071/CH9810787
- 7807 - Carcharhinus obscurus: 10.1071/CH9810787
- 7807 - Carcharhinus obscurus: LTS0246540
- 8184 - Centropomidae: LTS0246540
- 7777 - Chondrichthyes: LTS0246540
- 7711 - Chordata: LTS0246540
- 2706 - Citrus: LTS0246540
- 558547 - Citrus deliciosa: 10.2503/JJSHS.55.169
- 109792 - Citrus natsudaidai: 10.2503/JJSHS.55.169
- 109792 - Citrus natsudaidai: LTS0246540
- 85571 - Citrus reticulata: 10.2503/JJSHS.55.169
- 85571 - Citrus reticulata: LTS0246540
- 55188 - Citrus unshiu: 10.2503/JJSHS.55.169
- 55188 - Citrus unshiu: LTS0246540
- 33836 - Coscinodiscophyceae: LTS0246540
- 13492 - Diospyros: LTS0246540
- 13493 - Diospyros virginiana: 10.2503/JJSHS.55.169
- 13493 - Diospyros virginiana: LTS0246540
- 19955 - Ebenaceae: LTS0246540
- 7778 - Elasmobranchii: LTS0246540
- 23166 - Eriobotrya: LTS0246540
- 32224 - Eriobotrya japonica: 10.2503/JJSHS.55.169
- 32224 - Eriobotrya japonica: LTS0246540
- 3039 - Euglena gracilis: 10.3389/FBIOE.2021.662655
- 33682 - Euglenozoa: LTS0246540
- 2759 - Eukaryota: LTS0246540
- 4751 - Fungi: LTS0246540
- 9604 - Hominidae: LTS0246540
- 9605 - Homo: LTS0246540
- 9606 - Homo sapiens:
- 9606 - Homo sapiens: -
- 9606 - Homo sapiens: 10.1007/S11306-012-0464-Y
- 9606 - Homo sapiens: 10.1038/NBT.2488
- 9606 - Homo sapiens: LTS0246540
- 8418 - Hylidae: LTS0246540
- 50557 - Insecta: LTS0246540
- 5653 - Kinetoplastea: LTS0246540
- 8186 - Lates: LTS0246540
- 8187 - Lates calcarifer: 10.3389/FPHYS.2020.00205
- 8187 - Lates calcarifer: LTS0246540
- 8370 - Litoria: LTS0246540
- 681275 - Litoria verreauxii: 10.1038/SDATA.2018.33
- 681275 - Litoria verreauxii: LTS0246540
- 7374 - Lucilia: LTS0246540
- 13632 - Lucilia sericata: 10.1042/BJ0320903
- 13632 - Lucilia sericata: LTS0246540
- 3398 - Magnoliopsida: LTS0246540
- 3749 - Malus: LTS0246540
- 3750 - Malus domestica: 10.2503/JJSHS.55.169
- 3750 - Malus domestica: LTS0246540
- 283210 - Malus pumila: 10.2503/JJSHS.55.169
- 283210 - Malus pumila: LTS0246540
- 3752 - Malus sylvestris: 10.2503/JJSHS.55.169
- 3752 - Malus sylvestris: LTS0246540
- 40674 - Mammalia: LTS0246540
- 589449 - Mediophyceae: LTS0246540
- 33208 - Metazoa: LTS0246540
- 10066 - Muridae: LTS0246540
- 10088 - Mus: LTS0246540
- 10090 - Mus musculus:
- 10090 - Mus musculus: LTS0246540
- 10090 - Mus musculus: NA
- 2696291 - Ochrophyta: LTS0246540
- 3754 - Prunus: LTS0246540
- 3760 - Prunus persica: 10.2503/JJSHS.55.169
- 3760 - Prunus persica: LTS0246540
- 180039 - Psychotria punctata: 10.3389/FMOLB.2021.683671
- 3745 - Rosaceae: LTS0246540
- 23513 - Rutaceae: LTS0246540
- 4895 - Schizosaccharomyces: LTS0246540
- 4896 - Schizosaccharomyces pombe: 10.1039/C4MB00346B
- 4896 - Schizosaccharomyces pombe: LTS0246540
- 4894 - Schizosaccharomycetaceae: LTS0246540
- 147554 - Schizosaccharomycetes: LTS0246540
- 35493 - Streptophyta: LTS0246540
- 32443 - Teleostei: LTS0246540
- 35127 - Thalassiosira: LTS0246540
- 35128 - Thalassiosira pseudonana: 10.1016/J.PROTIS.2019.05.004
- 35128 - Thalassiosira pseudonana: LTS0246540
- 29202 - Thalassiosiraceae: LTS0246540
- 58023 - Tracheophyta: LTS0246540
- 5690 - Trypanosoma: LTS0246540
- 5691 - Trypanosoma brucei: 10.1371/JOURNAL.PNTD.0001618
- 5691 - Trypanosoma brucei: LTS0246540
- 5654 - Trypanosomatidae: LTS0246540
- 118778 - Tussilago farfara: 10.1002/PCA.2346
- 33090 - Viridiplantae: LTS0246540
- 29760 - Vitis vinifera: 10.1016/J.DIB.2020.106469
- 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。
亚细胞结构定位 | 关联基因列表 |
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文献列表
- Eman I Elgizawy, Ghada S Amer, Eman A Ali, Fatma S Alqalashy, Marwa M Ibrahim, Asmaa A Abdel Latif, Anwar M Shaban. Comparing the efficacy of concomitant treatment of resistance exercise and creatine monohydrate versus multiple individual therapies in age related sarcopenia.
Scientific reports.
2024 04; 14(1):9798. doi:
10.1038/s41598-024-59884-w
. [PMID: 38684784] - Gina Mabrey, Majid S Koozehchian, Andrew T Newton, Alireza Naderi, Scott C Forbes, Monoem Haddad. The Effect of Creatine Nitrate and Caffeine Individually or Combined on Exercise Performance and Cognitive Function: A Randomized, Crossover, Double-Blind, Placebo-Controlled Trial.
Nutrients.
2024 Mar; 16(6):. doi:
10.3390/nu16060766
. [PMID: 38542677] - Edgar Willibaldo Allebrandt Neto, Jadyellen Rondon E Silva, Stephanie Figueiredo Santos, Suélem Aparecida de França Lemes, Nair Honda Kawashita, Mayara Peron Pereira. The futile creatine cycle and the synthesis of fatty acids in inguinal white adipose tissue from growing rats, submitted to a hypoprotein-hyperglycidic diet for 15 days.
Lipids.
2024 Jan; 59(1):3-12. doi:
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Journal of the International Society of Sports Nutrition.
2023 Dec; 20(1):2204066. doi:
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European spine journal : official publication of the European Spine Society, the European Spinal Deformity Society, and the European Section of the Cervical Spine Research Society.
2023 12; 32(12):4397-4404. doi:
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BMC medicine.
2023 10; 21(1):408. doi:
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Poultry science.
2023 Oct; 103(1):103166. doi:
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International journal of impotence research.
2023 Sep; ?(?):. doi:
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Cognitive and behavioral neurology : official journal of the Society for Behavioral and Cognitive Neurology.
2023 09; 36(3):194-197. doi:
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Scientific reports.
2023 May; 13(1):8176. doi:
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ACS pharmacology & translational science.
2023 May; 6(5):683-701. doi:
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Fish physiology and biochemistry.
2023 Apr; ?(?):. doi:
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Poultry science.
2023 Mar; 102(6):102653. doi:
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Biochimie.
2023 Feb; 209(?):85-94. doi:
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Life sciences.
2022 Dec; 310(?):121064. doi:
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Neuroscience.
2022 10; 501(?):72-84. doi:
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Molecules (Basel, Switzerland).
2022 Sep; 27(19):. doi:
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Metabolic brain disease.
2022 08; 37(6):2077-2088. doi:
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Revista da Associacao Medica Brasileira (1992).
2022 Aug; 68(8):1011-1016. doi:
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The Journal of clinical investigation.
2022 Jul; 132(14):. doi:
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Addiction biology.
2022 07; 27(4):e13182. doi:
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The Journal of physiology.
2022 07; 600(13):3193-3210. doi:
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Clinica chimica acta; international journal of clinical chemistry.
2022 Jul; 532(?):29-36. doi:
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European journal of applied physiology.
2022 Jun; 122(6):1429-1440. doi:
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Toxicology and applied pharmacology.
2022 04; 441(?):115971. doi:
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Clinical nutrition ESPEN.
2022 04; 48(?):464-471. doi:
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Brain & development.
2022 Apr; 44(4):271-280. doi:
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Journal of orthopaedic research : official publication of the Orthopaedic Research Society.
2022 04; 40(4):965-976. doi:
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Nutrients.
2022 Mar; 14(6):. doi:
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The Journal of nutrition.
2022 03; 152(3):663-670. doi:
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Biochimica et biophysica acta. Biomembranes.
2022 03; 1864(3):183840. doi:
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Comparative biochemistry and physiology. Part D, Genomics & proteomics.
2022 03; 41(?):100941. doi:
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Nutrients.
2022 Feb; 14(3):. doi:
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Journal of hypertension.
2022 02; 40(2):229-239. doi:
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Nature metabolism.
2022 02; 4(2):190-202. doi:
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Nutrients.
2022 Jan; 14(3):. doi:
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Nutrients.
2022 Jan; 14(3):. doi:
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BMC veterinary research.
2022 Jan; 18(1):35. doi:
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PloS one.
2022; 17(3):e0264864. doi:
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PloS one.
2022; 17(3):e0265017. doi:
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Zhurnal nevrologii i psikhiatrii imeni S.S. Korsakova.
2022; 122(5):90-96. doi:
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Drug testing and analysis.
2022 Jan; 14(1):162-168. doi:
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Frontiers in endocrinology.
2022; 13(?):858012. doi:
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PloS one.
2022; 17(2):e0264568. doi:
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Zhurnal nevrologii i psikhiatrii imeni S.S. Korsakova.
2022; 122(3):78-84. doi:
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Nutrients.
2021 Dec; 14(1):. doi:
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Acta neurologica Belgica.
2021 Dec; 121(6):1859-1861. doi:
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GeroScience.
2021 12; 43(6):2653-2665. doi:
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Renal failure.
2021 Dec; 43(1):1104-1114. doi:
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Nutrients.
2021 Nov; 13(11):. doi:
10.3390/nu13113985
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Emergency medicine clinics of North America.
2021 Nov; 39(4):733-744. doi:
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European review for medical and pharmacological sciences.
2021 Nov; 25(22):7089-7092. doi:
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Journal of extracellular vesicles.
2021 11; 10(13):e12168. doi:
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The Cochrane database of systematic reviews.
2021 10; 10(?):CD012649. doi:
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Molecular medicine (Cambridge, Mass.).
2021 10; 27(1):129. doi:
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Science advances.
2021 10; 7(41):eabi7511. doi:
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. [PMID: 34613776] - Mark D Levin, Simona Bianconi, Andrew Smith, Niamh X Cawley, An Dang Do, Dylan Hammond, Julia F Grafstein, Audrey Thurm, Judith Miller, John Perreault, Audrey Noguchi, Danielle Springer, Beth A Kozel, Christopher F Spurney, Christopher A Wassif, Zu-Xi Yu, Andreas Schulze, Forbes D Porter, Fady Hannah-Shmouni. X-linked creatine transporter deficiency results in prolonged QTc and increased sudden death risk in humans and disease model.
Genetics in medicine : official journal of the American College of Medical Genetics.
2021 10; 23(10):1864-1872. doi:
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Journal of the International Society of Sports Nutrition.
2021 Sep; 18(1):60. doi:
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JCI insight.
2021 09; 6(17):. doi:
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Journal of applied physiology (Bethesda, Md. : 1985).
2021 09; 131(3):1088-1099. doi:
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Nutrients.
2021 Aug; 13(8):. doi:
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NeuroImage.
2021 08; 236(?):118071. doi:
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Genes.
2021 07; 12(8):. doi:
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Zhonghua yi xue yi chuan xue za zhi = Zhonghua yixue yichuanxue zazhi = Chinese journal of medical genetics.
2021 Jul; 38(7):686-689. doi:
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NMR in biomedicine.
2021 07; 34(7):e4513. doi:
10.1002/nbm.4513
. [PMID: 33826181] - Minh-Ha Thi Do, Joy Cavagnaro, Mark Butt, Pramod S Terse, John C McKew. Use of an animal model of disease for toxicology enables identification of a juvenile no observed adverse effect level for cyclocreatine in creatine transporter deficiency.
Regulatory toxicology and pharmacology : RTP.
2021 Jul; 123(?):104939. doi:
10.1016/j.yrtph.2021.104939
. [PMID: 33961952] - Adam M Wawro, Chandresh R Gajera, Steven A Baker, Jeffrey J Nirschl, Hannes Vogel, Thomas J Montine. Creatine transport and pathological changes in creatine transporter deficient mice.
Journal of inherited metabolic disease.
2021 07; 44(4):939-948. doi:
10.1002/jimd.12358
. [PMID: 33389772] - Chi Liu, Zhidan Wang, Xin Hu, Hidenori Ito, Kiwamu Takahashi, Motowo Nakajima, Tohru Tanaka, Ping Zhu, Xiao-Kang Li. 5-aminolevulinic acid combined with sodium ferrous citrate ameliorated lupus nephritis in a mouse chronic graft-versus-host disease model.
International immunopharmacology.
2021 Jul; 96(?):107626. doi:
10.1016/j.intimp.2021.107626
. [PMID: 33862551] - Terumasa Hashimoto, Keita Shibata, Kazuo Honda, Koji Nobe. Acetic acid treatment causes renal inflammation and chronic kidney disease in mice.
Journal of pharmacological sciences.
2021 Jul; 146(3):160-168. doi:
10.1016/j.jphs.2021.04.002
. [PMID: 34030798] - Phaneendra Batchu, Thomas H Terrill, Brou Kouakou, Zaira M Estrada-Reyes, Govind Kannan. Plasma metabolomic profiles as affected by diet and stress in Spanish goats.
Scientific reports.
2021 06; 11(1):12607. doi:
10.1038/s41598-021-91893-x
. [PMID: 34131197] - A Saud, R S Luiz, A P O Leite, C R Muller, I Visona, N Reinecke, W H Silva, M A Gloria, C V Razvickas, D E Casarini, N Schor. Resistance exercise training ameliorates chronic kidney disease outcomes in a 5/6 nephrectomy model.
Life sciences.
2021 Jun; 275(?):119362. doi:
10.1016/j.lfs.2021.119362
. [PMID: 33741414] - Anne K Bozack, Caitlin G Howe, Megan N Hall, Xinhua Liu, Vesna Slavkovich, Vesna Ilievski, Angela M Lomax-Luu, Faruque Parvez, Abu B Siddique, Hasan Shahriar, Mohammad N Uddin, Tariqul Islam, Joseph H Graziano, Mary V Gamble. Betaine and choline status modify the effects of folic acid and creatine supplementation on arsenic methylation in a randomized controlled trial of Bangladeshi adults.
European journal of nutrition.
2021 Jun; 60(4):1921-1934. doi:
10.1007/s00394-020-02377-z
. [PMID: 32918135] - Shinya Shimizu, Yuichi Hayashi, Shohei Nishida, Hironori Fujii, Mitsuhiro Nakamura, Nobuaki Yoshikura, Akihito Nagano, Junichi Kitagawa, Nobuhiro Kanemura, Kosuke Mizutani, Ryo Kobayashi, Takuma Ishihara, Hideki Hayashi, Takayoshi Shimohata, Tadashi Sugiyama, Akio Suzuki. Albumin-bilirubin score for predicting neuropsychiatric symptoms in patients receiving ifosfamide-based chemotherapy.
Journal of clinical pharmacy and therapeutics.
2021 Jun; 46(3):794-799. doi:
10.1111/jcpt.13355
. [PMID: 33393716] - Olga Begou, Kathrin Weber, Bibiana Beckmann, Dimitrios Tsikas. GC-MS Studies on Derivatization of Creatinine and Creatine by BSTFA and Their Measurement in Human Urine.
Molecules (Basel, Switzerland).
2021 May; 26(11):. doi:
10.3390/molecules26113206
. [PMID: 34071971] - Qiao Li, Manran Liu, Yan Sun, Ting Jin, Pengpeng Zhu, Xueying Wan, Yixuan Hou, Gang Tu. SLC6A8-mediated intracellular creatine accumulation enhances hypoxic breast cancer cell survival via ameliorating oxidative stress.
Journal of experimental & clinical cancer research : CR.
2021 May; 40(1):168. doi:
10.1186/s13046-021-01933-7
. [PMID: 33990217] - Caitlin A O'Connell, Andrea L DiGiorgio, Alexa D Ugarte, Rebecca S A Brittain, Daniel J Naumenko, Sri Suci Utami Atmoko, Erin R Vogel. Wild Bornean orangutans experience muscle catabolism during episodes of fruit scarcity.
Scientific reports.
2021 05; 11(1):10185. doi:
10.1038/s41598-021-89186-4
. [PMID: 33986319] - William J Evans, Brian Scottoline, Faryal Imam, Marc Hellerstein, Kelly Garton, Gregg Czerwieniec, Edna Nyangau, Mahalakshmi Shankaran. D3-creatine dilution for the noninvasive measurement of skeletal muscle mass in premature infants.
Pediatric research.
2021 05; 89(6):1508-1514. doi:
10.1038/s41390-020-01122-w
. [PMID: 32919390] - Kaili Shi, Huimin Zhao, Shuming Xu, Hong Han, Wenjuan Li. Treatment efficacy of high-dose creatine supplementation in a child with creatine transporter (SLC6A8) deficiency.
Molecular genetics & genomic medicine.
2021 04; 9(4):e1640. doi:
10.1002/mgg3.1640
. [PMID: 33656256] - Adrian Post, Dion Groothof, Joëlle C Schutten, Jose L Flores-Guerrero, J Casper Swarte, Rianne M Douwes, Ido P Kema, Rudolf A de Boer, Erwin Garcia, Marge A Connelly, Theo Wallimann, Robin P F Dullaart, Casper F M Franssen, Stephan J L Bakker. Plasma creatine and incident type 2 diabetes in a general population-based cohort: The PREVEND study.
Clinical endocrinology.
2021 04; 94(4):563-574. doi:
10.1111/cen.14396
. [PMID: 33348429] - Emmanuel O Okwuofu, Gbenga E Ogundepo, Abigail M Akhigbemen, Akinpelu L Abiola, Raymond I Ozolua, Ighodaro Igbe, Ononiwu Chinazamoku. Creatine attenuates seizure severity, anxiety and depressive-like behaviors in pentylenetetrazole kindled mice.
Metabolic brain disease.
2021 04; 36(4):571-579. doi:
10.1007/s11011-021-00684-w
. [PMID: 33559804] - Jennifer H Yu, Ngoc Duyen Huong Nguyen, Hai Kim Lam, Jessica Jimerson, Lee-Ann C Hayek, Bonnie L Raphael, Van Thai Nguyen, Marc T Valitutto. SERUM BIOCHEMISTRY AND SELECT MINERAL PARAMETERS OF PRE-RELEASE SUNDA PANGOLINS (MANIS JAVANICA) FOLLOWING REHABILITATION IN VIETNAM.
Journal of zoo and wildlife medicine : official publication of the American Association of Zoo Veterinarians.
2021 Apr; 52(1):241-252. doi:
10.1638/2020-0124
. [PMID: 33827182] - Adrian Post, Joëlle C Schutten, Daan Kremer, Yvonne van der Veen, Dion Groothof, Camilo G Sotomayor, Christa A Koops, Pim de Blaauw, Ido P Kema, Ralf Westerhuis, Theo Wallimann, M Rebecca Heiner-Fokkema, Stephan J L Bakker, Casper F M Franssen. Creatine homeostasis and protein energy wasting in hemodialysis patients.
Journal of translational medicine.
2021 03; 19(1):115. doi:
10.1186/s12967-021-02780-y
. [PMID: 33743724] - O Chandani Dinesh, Thillayampalam Kankayaliyan, Meike Rademacher, Christopher Tomlinson, Robert F Bertolo, Janet A Brunton. Neonatal Piglets Can Synthesize Adequate Creatine, but Only with Sufficient Dietary Arginine and Methionine, or with Guanidinoacetate and Excess Methionine.
The Journal of nutrition.
2021 03; 151(3):531-539. doi:
10.1093/jn/nxaa369
. [PMID: 33437999] - Paulo R Ribeiro, Rozana Dos S Teixeira, Alzenir R Souza, Tayla C S Pereira, Elisangela F Boffo, Maria G A Carosio, Antonio G Ferreira, Regina V Oliveira, Luiz E A Rodrigues, Jacqueline de J Silva, Amancio J de Souza, Ana Marice T Ladeia. Blood plasma metabolomics of children and adolescents with sickle cell anaemia treated with hydroxycarbamide: a new tool for uncovering biochemical alterations.
British journal of haematology.
2021 03; 192(5):922-931. doi:
10.1111/bjh.17315
. [PMID: 33476407] - Rong Yao, Ailan Cheng, Menglin Liu, Zhengwei Zhang, Biao Jin, Hong Yu. The Diagnostic Value of Apparent Diffusion Coefficient and Proton Magnetic Resonance Spectroscopy in the Grading of Pediatric Gliomas.
Journal of computer assisted tomography.
2021 Mar; 45(2):269-276. doi:
10.1097/rct.0000000000001130
. [PMID: 33346568] - Jose Antonio, Darren G Candow, Scott C Forbes, Bruno Gualano, Andrew R Jagim, Richard B Kreider, Eric S Rawson, Abbie E Smith-Ryan, Trisha A VanDusseldorp, Darryn S Willoughby, Tim N Ziegenfuss. Common questions and misconceptions about creatine supplementation: what does the scientific evidence really show?.
Journal of the International Society of Sports Nutrition.
2021 Feb; 18(1):13. doi:
10.1186/s12970-021-00412-w
. [PMID: 33557850] - Melanie Brugger, Theresa Brunet, Matias Wagner, Laura Elena Orec, Eva Maria Christina Schwaibold, Nikolas Boy. Locus heterogeneity in two siblings presenting with developmental delay, intellectual disability and autism spectrum disorder.
Gene.
2021 Feb; 768(?):145260. doi:
10.1016/j.gene.2020.145260
. [PMID: 33164824] - Sergej M Ostojic. Diagnostic and Pharmacological Potency of Creatine in Post-Viral Fatigue Syndrome.
Nutrients.
2021 Feb; 13(2):. doi:
10.3390/nu13020503
. [PMID: 33557013] - Hiroaki Otsuka, Toru Miyoshi, Kentaro Ejiri, Kunihisa Kohno, Makoto Nakahama, Masayuki Doi, Mitsuru Munemasa, Masaaki Murakami, Kazufumi Nakamura, Hiroshi Ito. Possible Protective Effect of Remote Ischemic Preconditioning on Acute Kidney Injury Following Elective Percutaneous Coronary Intervention: Secondary Analysis of a Multicenter, Randomized Study.
Acta medica Okayama.
2021 Feb; 75(1):45-53. doi:
10.18926/amo/61433
. [PMID: 33649613] - Shuhei Morita, Yoko Inai, Shiho Minakata, Shohei Kishimoto, Shino Manabe, Naoyuki Iwahashi, Kazuhiko Ino, Yukishige Ito, Takashi Akamizu, Yoshito Ihara. Quantification of serum C-mannosyl tryptophan by novel assay to evaluate renal function and vascular complications in patients with type 2 diabetes.
Scientific reports.
2021 01; 11(1):1946. doi:
10.1038/s41598-021-81479-y
. [PMID: 33479412] - Lara Duran-Trio, Gabriella Fernandes-Pires, Dunja Simicic, Jocelyn Grosse, Clothilde Roux-Petronelli, Stephen J Bruce, Pierre-Alain Binz, Carmen Sandi, Cristina Cudalbu, Olivier Braissant. A new rat model of creatine transporter deficiency reveals behavioral disorder and altered brain metabolism.
Scientific reports.
2021 01; 11(1):1636. doi:
10.1038/s41598-020-80824-x
. [PMID: 33452333] - Masashi Kameyama, Toshika Okumiya, Shinji Tokuhiro, Yoshihisa Matsumura, Hirotaka Matsui, Yasuhiro Ono, Tsuyoshi Iwasaka, Kazuyuki Hiratani, Masafumi Koga. Estimation of the hemoglobin glycation rate constant.
Scientific reports.
2021 01; 11(1):986. doi:
10.1038/s41598-020-80024-7
. [PMID: 33441732] - Javier Fernández-Torres, Gabriela Angélica Martínez-Nava, Yessica Zamudio-Cuevas, Olivier Christophe Barbier, Juana Narváez-Morales, Karina Martínez-Flores. Ancestral contribution of the muscle-specific creatine kinase (CKM) polymorphism rs4884 in the knee osteoarthritis risk: a preliminary study.
Clinical rheumatology.
2021 Jan; 40(1):279-285. doi:
10.1007/s10067-020-05238-6
. [PMID: 32557253] - Olga Laszczyńska, Milton Severo, Sofia Correia, Ana Azevedo. Estimation of Missing Baseline Serum Creatinine for Acute Kidney Injury Diagnosis in Hospitalized Patients.
Nephron.
2021; 145(2):123-132. doi:
10.1159/000512080
. [PMID: 33341804] - Antonio Augusto Moreira Neto, Acácio Francisco Neto, Fernanda Macedo Dos Reis Moreira, Lawani Rigopoulos, Douglas Tsunemi, Marco Antônio Soufen. Effects of dietary creatine supplementation on kidney and striated skeletal muscles of rats submitted to ischemia and reperfusion of hind limbs.
Acta cirurgica brasileira.
2021; 36(3):e360305. doi:
10.1590/acb360305
. [PMID: 33909821] - Piergiorgio Bolasco, Laura Casula, Rita Contu, Mariella Cadeddu, Stefano Murtas. Evaluation of Residual Kidney Function during Once-Weekly Incremental Hemodialysis.
Blood purification.
2021; 50(2):246-253. doi:
10.1159/000509790
. [PMID: 33080618] - Sergej M Ostojic, Nikola Todorovic, Valdemar Stajer. Effect of Creatine and Guanidinoacetate Supplementation on Plasma Homocysteine in Metabolically Healthy Men and Women.
Annals of nutrition & metabolism.
2021; 77(5):307-308. doi:
10.1159/000518126
. [PMID: 34515059] - Yi Wang, Jin-Fang Chen, Pengyu Li, Jia-Hong Gao. Quantifying the fractional concentrations and exchange rates of small-linewidth CEST agents using the QUCESOP method under multi-solute conditions in MRI signals.
Magnetic resonance in medicine.
2021 01; 85(1):268-280. doi:
10.1002/mrm.28436
. [PMID: 32726502] - Neha Jangid, Priyanka Surana, Gajja Salmonos, Vivek Jain. Creatine transporter deficiency, an underdiagnosed cause of male intellectual disability.
BMJ case reports.
2020 Dec; 13(12):. doi:
10.1136/bcr-2020-237542
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