Gly-Met-OH
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Gly-Met-OH

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Category
Others
Catalog number
BAT-005024
CAS number
554-94-9
Molecular Formula
C7H14N2O3S
Molecular Weight
206.27
Gly-Met-OH
IUPAC Name
(2S)-2-[(2-aminoacetyl)amino]-4-methylsulfanylbutanoic acid
Synonyms
Glycylmethionine
Appearance
White powder
Purity
≥ 99% (HPLC)
Density
1.267±0.06 g/cm3(Predicted)
Melting Point
140-145 °C
Boiling Point
493.7±45.0 °C(Predicted)
Storage
Store at 2-8 °C
InChI
InChI=1S/C7H14N2O3S/c1-13-3-2-5(7(11)12)9-6(10)4-8/h5H,2-4,8H2,1H3,(H,9,10)(H,11,12)/t5-/m0/s1
InChI Key
PFMUCCYYAAFKTH-YFKPBYRVSA-N
Canonical SMILES
CSCCC(C(=O)O)NC(=O)CN
1. Inhibition of leukocyte chemotaxis by Glu-Glu-Glu-Glu-Tyr-Pro-Met-Glu and Leu-Ile-Glu-Asp-Asn-Glu-Tyr-Thr-Ala-Arg-Gln-Gly
F Hirata, Y Notsu, K Matsuda, G Vasanthakumar, E Schiffmann, T W Wong, A R Goldberg Biochem Biophys Res Commun. 1984 Jan 30;118(2):682-90. doi: 10.1016/0006-291x(84)91357-3.
Chemotaxis of rabbit peritoneal leucocytes stimulated by fMet-Leu-Phe, a synthetic chemoattractant, was inhibited by Glu-Glu-Glu-Glu-Tyr-Pro-Met-Glu (MT peptide) and Leu-Ile-Glu-Asp-Asn-Glu-Tyr-Thr-Ala-Arg-Glu-Gly (Src peptide). Both peptides did not inhibit the binding of [3H] formyl-NLe-Leu-Phe, a chemoattractant, to neutrophils, suggesting that the peptides inhibit the events distal to the chemotactic receptors. These peptides blocked the release of arachidonic acid from phospholipids in neutrophils stimulated with chemoattractants, whereas they had no effect on phospholipase A2 activity itself. The peptides markedly reduced the phosphorylation of lipomodulin, a phospholipase inhibitory protein, in either intact cells or isolated plasma membranes. Lipomodulin immunoprecipitated by monoclonal anti-lipomodulin antibody had phosphorylserine and phosphoryltyrosine as analyzed upon electrophoresis. The MT peptide which does not contain threonine or serine was phosphorylated by isolated plasma membranes. These results, taken together, suggest that a tyrosine phosphorylating kinase is involved in biochemical events of chemotactic receptors, and that lipomodulin is a substrate for this kinase.
2. Varying the ratio of Lys:Met while maintaining the ratios of Thr:Phe, Lys:Thr, Lys:His, and Lys:Val alters mammary cellular metabolites, mammalian target of rapamycin signaling, and gene transcription
X Dong, Z Zhou, B Saremi, A Helmbrecht, Z Wang, J J Loor J Dairy Sci. 2018 Feb;101(2):1708-1718. doi: 10.3168/jds.2017-13351. Epub 2017 Dec 14.
Amino acids are not only precursors for but also signaling molecules regulating protein synthesis. Regulation of protein synthesis via AA occurs at least in part by alterations in the phosphorylation status of mammalian target of rapamycin (mTOR) pathway proteins. Although the ideal profile of Lys:Met to promote milk protein synthesis during established lactation in dairy cows has been proposed to be 3:1, aside from being the most-limiting AA for milk protein synthesis, the role of Met in other key biologic pathways such as methylation is not well characterized in the bovine. The objective of this study was to determine the influence of increasing supplemental Met, based on the ideal 3:1 ratio of Lys to Met, on intracellular metabolism related to protein synthesis and mTOR pathway phosphorylation status. MAC-T cells, an immortalized bovine mammary epithelial cell line, were incubated (n = 5 replicates/treatment) for 12 h with 3 incremental doses of Met while holding Lys concentration constant to achieve the following: Lys:Met 2.9:1 (ideal AA ratio; IPAA), Lys:Met 2.5:1 (LM2.5), and Lys:Met 2.0:1 (LM2.0). The ratios of Thr:Phe (1.05:1), Lys:Thr (1.8:1), Lys:His (2.38:1), and Lys:Val (1.23:1) were the same across the 3 treatments. Applying gas chromatography-mass spectrometry metabolomics revealed distinct clusters of differentially concentrated metabolites in response to Lys:Met. Lower Phe, branched-chain AA, and putrescine concentrations were observed with LM2.5 compared with IPAA. Apart from greater intracellular Met concentrations, further elevations in Met level (LM2.0) led to greater intracellular concentrations of nonessential AA (Pro, Glu, Gln, and Gly) compared with IPAA and greater essential AA (EAA; Met, Ile, and Leu) and nonessential AA (Pro, Gly, Ala, Gln, and Glu) compared with LM2.5. However, compared with IPAA, mRNA expression of β-casein and AA transporters (SLC7A5, SLC36A1, SLC38A2, SLC38A9, and SLC43A1) and mTOR phosphorylation were lower in response to LM2.5 and LM2.0. Overall, the results of this study provide evidence that increasing Met while Lys and the ratios of Phe, Thr, His, and Val relative to Lys were held constant could increase the concentration and utilization of intracellular EAA, in particular branched-chain AA, potentially through improving the activity of AA transporters partly controlled by mTOR signaling. Because EAA likely are metabolized by other tissues upon absorption, a question for future in vivo studies is whether formulating diets for optimal ratios of EAA in the metabolizable protein is sufficient to provide the desired levels of these AA to the mammary cells.
3. Met-Gly-Cys motif from G-protein alpha subunit cannot direct palmitoylation when fused to heterologous protein
T Utsumi, E Tou, D Takemura, R Ishisaka, M Yabuki, H Iwata Arch Biochem Biophys. 1998 Jan 15;349(2):216-24. doi: 10.1006/abbi.1997.0468.
To determine whether the N-terminal Met-Gly-Cys motif from G-protein alpha subunit can direct palmitoylation of protein, we have generated heterologous fusion proteins containing the first 10 amino acids of Gi1 alpha and Gs alpha using tumor necrosis factor as a model protein and determined their ability to incorporate palmitate using in vitro and in vivo expression systems. DNA sequences coding for the N-terminal 10 amino acids of Gi1 alpha and Gs alpha were fused to the 5'-end of the cDNA coding for the mature domain of tumor necrosis factor (TNF) to give Gi1 alpha-TNF and Gs alpha-TNF cDNA. In vitro translation of the mRNA coding for the Gi1 alpha-TNF cDNA gave rise to an N-myristoylated fusion TNF with a molecular mass of 18 kDa as determined by the incorporation of [3H]myristic acid and by immunoprecipitation with anti-TNF antibody. In contrast, no incorporation of fatty acid was detected for Gs alpha-TNF. Baculovirus expression of the Gi1 alpha-TNF cDNA in Sf-9 cells gave rise to an N-myristoylated but not palmitoylated fusion TNF. This myristoylation was inhibited by replacement of Gly-2 with Ala but not Cys-3 with Ala, indicating the acylation reaction is entirely dependent on the N-myristoylation signal (Met-Gly-X-X-X-Ser) and Cys-3 is not involved. As is the case with in vitro translation, no incorporation of fatty acid was detected for Gs alpha-TNF. These results indicated that unlike the myristoylation signal Met-Gly-X-X-X-Ser/Thr/Cys, the Met-Gly-Cys motif found in G-protein alpha subunits itself is not sufficient to direct palmitoylation even if Gly-2 is myristoylated after removal of initiating Met. Thus, another structural determinant is implicated in this modification.
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