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CABI Book Chapter

Amino acids in higher plants.

Description

This book, divided into 5 parts, deals with topics on amino acids in higher plants. Part I (enzymes and metabolism) contains 16 chapters pursuing the theme of amino acid metabolism through the driving actions of the principal enzymes, emphasizing recent advances particularly with reference to localization, biophysical characterization and regulation. Part II (dynamics) includes two chapters design...

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Chapter 2 (Page no: 30)

Alanine aminotransferase: amino acid metabolism in higher plants.

Alanine aminotransferase (AlaAT, EC 2.6.1.2) catalyses the reversible transfer of an amino group from alanine (Ala) to 2-oxoglutarate to form pyruvate and glutamate. AlaAT is a pyridoxal phosphate-dependent enzyme that serves as the main route of alanine biosynthesis and degradation. This chapter provides a comprehensive review of the biochemical characteristics of AlaAT and provides insight into the physiological and metabolic functions of the enzyme as reported from several elegant studies across the world. The diversity in cellular and sub-cellular localizations of multiple AlaAT homologues indicates their involvement in multifaceted metabolic processes, including amino acid biosynthesis and primary carbon metabolism. The enzyme is fairly ubiquitous, occurring across different phyla - fungi, algae, mycorrhizae and higher plants, and existing as various isoforms. Detailed kinetic characterization of the enzyme from several laboratories provides interesting details about its plethora of biochemical functions. The recent elucidation of the crystal structure of plant AlaAT paves opportunities for expanding our understanding of the AlaAT reaction mechanism and catalysis. Additionally, the roles of AlaAT in hypoxia, photorespiration and nitrogen use efficiency are reviewed in terms of stress amelioration and overall plant physiology.

Other chapters from this book

Chapter: 1 (Page no: 1)	Glutamate dehydrogenase. Author(s): Osuji, G. O. Madu, W. C.
Chapter: 3 (Page no: 57)	Aspartate aminotransferase. Author(s): Leasure, C. D. He, Z. H.
Chapter: 4 (Page no: 68)	Tyrosine aminotransferase. Author(s): Hudson, A. O.
Chapter: 5 (Page no: 82)	An insight into the role and regulation of glutamine synthetase in plants. Author(s): Sengupta-Gopalan, C. Ortega, J. L.
Chapter: 6 (Page no: 100)	Asparagine synthetase. Author(s): Duff, S. M. G.
Chapter: 7 (Page no: 129)	Glutamate decarboxylase. Author(s): Molina-Rueda, J. J. Garrido-Aranda, A. Gallardo, F.
Chapter: 8 (Page no: 142)	L-arginine-dependent nitric oxide synthase activity. Author(s): Corpas, F. J. Río, L. A. del Palma, J. M. Barroso, J. B.
Chapter: 9 (Page no: 156)	Ornithine: at the crossroads of multiple paths to amino acids and polyamines. Author(s): Majumdar, R. Minocha, R. Minocha, S. C.
Chapter: 10 (Page no: 177)	Polyamines in plants: biosynthesis from arginine, and metabolic, physiological and stress-response roles. Author(s): Mattoo, A. K. Fatima, T. Upadhyay, R. K. Handa, A. K.
Chapter: 11 (Page no: 195)	Serine acetyltransferase. Author(s): Watanabe, M. Hubberten, H. M. Saito, K. Hoefgen, R.
Chapter: 12 (Page no: 219)	Cysteine homeostasis. Author(s): García, I. Romero, L. C. Gotor, C.
Chapter: 13 (Page no: 234)	Lysine metabolism. Author(s): Medici, L. O. Nazareno, A. C. Gaziola, S. A. Schmidt, D. Azevedo, R. A.
Chapter: 14 (Page no: 251)	Histidine. Author(s): Ingle, R. A.
Chapter: 15 (Page no: 262)	Amino acid synthesis under abiotic stress. Author(s): Planchet, E. Limami, A. M.
Chapter: 16 (Page no: 277)	The central role of glutamate and aspartate in the post-translational control of respiration and nitrogen assimilation in plant cells. Author(s): O'Leary, B. Plaxton, W. C.
Chapter: 17 (Page no: 298)	Amino acid export in plants. Author(s): Price, M. B. Okumoto, S.
Chapter: 18 (Page no: 315)	Uptake, transport and redistribution of amino nitrogen in woody plants. Author(s): Pfautsch, S. Bell, T. L. Gessler, A.
Chapter: 19 (Page no: 340)	Auxin biosynthesis. Author(s): Chandler, J. W.
Chapter: 20 (Page no: 362)	Involvement of tryptophan-pathway-derived secondary metabolism in the defence responses of grasses. Author(s): Ishihara, A. Matsukawa, T. Nomura, T. Sue, M. Oikawa, A. Okazaki, Y. Tebayashi, S.
Chapter: 21 (Page no: 390)	Melatonin: synthesis from tryptophan and its role in higher plant. Author(s): Arnao, M. B. Hernández-Ruiz, J.
Chapter: 22 (Page no: 436)	Glucosinolate biosynthesis from amino acids. Author(s): Stotz, H. U. Brown, P. D. Tokuhisa, J.
Chapter: 23 (Page no: 448)	Natural toxins that affect plant amino acid metabolism. Author(s): Duke, S. O. Dayan, F. E.
Chapter: 24 (Page no: 461)	Glyphosate: the fate and toxicology of a herbicidal amino acid derivative. Author(s): Saltmiras, D. A. Farmer, D. R. Mehrsheikh, A. Bleeke, M. S.
Chapter: 25 (Page no: 481)	Amino acid analysis of plant products. Author(s): Rutherfurd, S. M.
Chapter: 26 (Page no: 497)	Metabolic amino acid availability in foods of plant origin: implications for human and livestock nutrition. Author(s): Levesque, C. L.
Chapter: 27 (Page no: 507)	Toxicology of non-protein amino acids. Author(s): D'Mello, J. P. F.
Chapter: 28 (Page no: 538)	Delivering innovative solutions and paradigms for a changing environment. Author(s): D'Mello, J. P. F.