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2004. Polyamines regulate eukaryotic initiation factor 4E-binding protein 1 gene transcription. 2018. Rational engineering of ornithine decarboxylase with better selectivity for ornithine over lysine by means of protein community evaluation. The amide bond synthetase between organic acids and natural amines was primarily ATP-grasp enzymes, corresponding to d-Ala ligase, glutathione synthetase, glycinamide ribonucleotide synthetase (PurD), carnosine synthetase, tyramine-glutamate ligase (MfnD), ribosomal protein S6 modification protein (RimK), and tubulin-tyrosine ligase (79). Hollenhorst et al. 79.Kino K, Arai T, Arimura Y. 2011. Poly-alpha-glutamic acid synthesis using a novel catalytic exercise of RimK from Escherichia coli K-12. 2012. Improving putrescine manufacturing by Corynebacterium glutamicum by high-quality-tuning ornithine transcarbamoylase activity using a plasmid addiction system. 2018.  Di-arginine Malate powder USA,  and a comparative omics analysis of Corynebacterium glutamicum for putrescine production. 50.Buschke N, Schröder H, Wittmann C. 2011. Metabolic engineering of Corynebacterium glutamicum for production of 1, 5-diaminopentane from hemicellulose. 2011. Metabolic engineering of Escherichia coli for the manufacturing of cadaverine: a five carbon diamine. 2009. Metabolic engineering of Escherichia coli for the manufacturing of putrescine: a four carbon diamine.

45.Tateno T, Okada Y, Tsuchidate T, Tanaka T, Fukuda H, Kondo A. 2009. Direct manufacturing of cadaverine from soluble starch using Corynebacterium glutamicum coexpressing α-amylase and lysine decarboxylase. 2015. Methanol-based cadaverine production by genetically engineered Bacillus methanolicus strains. 44.Mimitsuka T, Sawai H, Hatsu M, Yamada K. 2007. Metabolic engineering of Corynebacterium glutamicum for cadaverine fermentation. 3.Rhee H, Kim E-J, Lee J. 2007. Physiological polyamines: simple primordial stress molecules. 15.Chae TU, Kim WJ, Choi S, Park SJ, Lee SY. 12.Chae TU, Ahn JH, Ko Y-S, Kim JW, Lee JA, Lee EH, Lee SY. 63.Park SJ, Oh YH, Noh W, Kim HY, Shin JH, Lee EG, Lee S, David Y, Baylon MG, Song BK, Jegal J, Lee SY, Lee SH. 13.Jang YS, Kim B, Shin JH, Choi YJ, Choi S, Song CW, Lee J, Park HG, Lee SY. 70.Silva-Rocha R, Martínez-García E, Calles B, Chavarría M, Arce-Rodríguez A, de Las Heras A, Páez-Espino Ad, Durante-Rodríguez G, Kim J, Nikel PI, Platero R, de Lorenzo V. 2013. The standard European Vector Architecture (SEVA): a coherent platform for the evaluation and deployment of advanced prokaryotic phenotypes.

2012. Bio-based production of C2-C6 platform chemicals. Eur., JP, FCC or Food Grade, Analytical Reagent Grade, LR or Laboratory Reagent Grades and Pure Grades of various chemicals. We manufacture Bulk Drugs / API, Excipients, Pharmaceuticals (IP BP USP NF Ph Eur EP JP), Specialty Chemicals (Pure/Reagent), Mineral Fortifiers (FCC). Anmol Chemicals Group, established in 1976, is the pioneer manufacturer of Specialty Chemicals, Pharmaceutical Excipients, Some API, Food Chemicals in India. Anmol Chemicals Group has manufacturing services unfold throughout Western India, representatives in Houston, Chicago USA and Dubai, UAE. Excellence in Excipients and API Manufacturing . We also have toll manufacturing models for processing chemicals in a couple of international locations all over the world. Our manufacturing facility is FDA permitted and GLP, cGMP, ISO9001, ISO14001, ISO/IEC 17025, ISO22000, FSSC 22000, ISO45001, FSSAI, Kosher, HALAL, COPP, WHO-GMP certified and Written Confirmation (WC) is accessible. 82.Hara R, Hirai K, Suzuki S, Kino K. 2018. A chemoenzymatic course of for amide bond formation by an adenylating enzyme-mediated mechanism. Recently, Goswami and Van Lanen (78) comprehensively introduced the formation of amide bonds in nonprotein amide bond-containing biomolecules, together with the one between carboxylic acids and amines.