N-Me-D-Phg-OH
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N-Me-D-Phg-OH

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Category
D-Amino Acids
Catalog number
BAT-015272
CAS number
30925-14-5
Molecular Formula
C9H11NO2
Molecular Weight
165.19
N-Me-D-Phg-OH
IUPAC Name
(2R)-2-(methylamino)-2-phenylacetic acid
Synonyms
N-alpha-Methyl-D-phenylglycine; N-methyl-2-phenyl-D-glycine; N-Methyl-D-phenylglycine; (R)-a-(Methylamino)-benzeneacetic acid; Benzeneacetic acid, α-(methylamino)-, (αR)-; (2R)-(Methylamino)(phenyl)acetic acid
Appearance
Off-white Powder
Purity
95%
Density
1.155±0.06 g/cm3 (Predicted)
Melting Point
213°C
Boiling Point
275.0±28.0°C at 760 mmHg
Storage
Store at RT
Solubility
Soluble in Acetic Acid
InChI
InChI=1S/C9H11NO2/c1-10-8(9(11)12)7-5-3-2-4-6-7/h2-6,8,10H,1H3,(H,11,12)/t8-/m1/s1
InChI Key
HGIPIEYZJPULIQ-MRVPVSSYSA-N
Canonical SMILES
CNC(C1=CC=CC=C1)C(=O)O
1. The trans-ancestral genomic architecture of glycemic traits
Hugoline G de Haan, et al. Nat Genet. 2021 Jun;53(6):840-860. doi: 10.1038/s41588-021-00852-9. Epub 2021 May 31.
Glycemic traits are used to diagnose and monitor type 2 diabetes and cardiometabolic health. To date, most genetic studies of glycemic traits have focused on individuals of European ancestry. Here we aggregated genome-wide association studies comprising up to 281,416 individuals without diabetes (30% non-European ancestry) for whom fasting glucose, 2-h glucose after an oral glucose challenge, glycated hemoglobin and fasting insulin data were available. Trans-ancestry and single-ancestry meta-analyses identified 242 loci (99 novel; P < 5 × 10-8), 80% of which had no significant evidence of between-ancestry heterogeneity. Analyses restricted to individuals of European ancestry with equivalent sample size would have led to 24 fewer new loci. Compared with single-ancestry analyses, equivalent-sized trans-ancestry fine-mapping reduced the number of estimated variants in 99% credible sets by a median of 37.5%. Genomic-feature, gene-expression and gene-set analyses revealed distinct biological signatures for each trait, highlighting different underlying biological pathways. Our results increase our understanding of diabetes pathophysiology by using trans-ancestry studies for improved power and resolution.
2. A saturated map of common genetic variants associated with human height
Gabriel Cuellar Partida, Yan Sun, Damien Croteau-Chonka, Judith M Vonk, Stephen Chanock, Loic Le Marchand Nature. 2022 Oct;610(7933):704-712. doi: 10.1038/s41586-022-05275-y. Epub 2022 Oct 12.
Common single-nucleotide polymorphisms (SNPs) are predicted to collectively explain 40-50% of phenotypic variation in human height, but identifying the specific variants and associated regions requires huge sample sizes1. Here, using data from a genome-wide association study of 5.4 million individuals of diverse ancestries, we show that 12,111 independent SNPs that are significantly associated with height account for nearly all of the common SNP-based heritability. These SNPs are clustered within 7,209 non-overlapping genomic segments with a mean size of around 90 kb, covering about 21% of the genome. The density of independent associations varies across the genome and the regions of increased density are enriched for biologically relevant genes. In out-of-sample estimation and prediction, the 12,111 SNPs (or all SNPs in the HapMap 3 panel2) account for 40% (45%) of phenotypic variance in populations of European ancestry but only around 10-20% (14-24%) in populations of other ancestries. Effect sizes, associated regions and gene prioritization are similar across ancestries, indicating that reduced prediction accuracy is likely to be explained by linkage disequilibrium and differences in allele frequency within associated regions. Finally, we show that the relevant biological pathways are detectable with smaller sample sizes than are needed to implicate causal genes and variants. Overall, this study provides a comprehensive map of specific genomic regions that contain the vast majority of common height-associated variants. Although this map is saturated for populations of European ancestry, further research is needed to achieve equivalent saturation in other ancestries.
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