Blanco Lourdes, Reddy Pallavolu M, Silvente Sonia, Bucciarelli Bruna, Khandual Sanghamitra, Alvarado-Affantranger Xochitl, Sánchez Federico, Miller Susan, Vance Carroll, Lara-Flores Miguel
Centro de Ciencias Genómicas, Univrsidad Nacional Autónoma de México, Av Universidad, C.P. 62210, Cuernavaca, Morelos, México.
Plant Cell Environ. 2008 Apr;31(4):454-72. doi: 10.1111/j.1365-3040.2008.01774.x. Epub 2008 Jan 21.
NADH-dependent glutamate synthase (NADH-GOGAT) is a key enzyme in primary ammonia assimilation in Phaseolus vulgaris nodules. Two different types of cDNA clones of PvNADH-GOGAT were isolated from the nodule cDNA libraries. The full-length cDNA clones of PvNADH-GOGAT-I (7.4 kb) and PvNADH-GOGAT-II (7.0 kb), which displayed an 83% homology between them, were isolated using cDNA library screening, 'cDNA library walking' and RT-PCR amplification. Southern analysis employing specific 5' cDNA probes derived from PvNADH-GOGAT-I and PvNADH-GOGAT-II indicated the existence of a single copy of each gene in the bean genome. Both these proteins contain approximately 100 amino acid sequences theoretically addressing each isoenzyme to different subcellular compartments. RT-PCR analysis indicated that PvNADH-GOGAT-II expression is higher than PvNADH-GOGAT-I during nodule development. Expression analysis by RT-PCR also revealed that both of these genes are differentially regulated by sucrose. On the other hand, the expression of PvNADH-GOGAT-I, but not PvNADH-GOGAT-II, was inhibited with nitrogen compounds. In situ hybridization and promoter expression analyses demonstrated that the NADH-GOGAT-I and -II genes are differentially expressed in bean root and nodule tissues. In silico analyses of the NADH-GOGAT promoters revealed the presence of potential cis elements in them that could mediate differential tissue-specific, and sugar and amino acid responsive expression of these genes.
NADH依赖型谷氨酸合酶(NADH-GOGAT)是菜豆根瘤中初级氨同化的关键酶。从根瘤cDNA文库中分离出两种不同类型的菜豆NADH-GOGAT cDNA克隆。通过cDNA文库筛选、“cDNA文库步移”和RT-PCR扩增,分离出了PvNADH-GOGAT-I(7.4 kb)和PvNADH-GOGAT-II(7.0 kb)的全长cDNA克隆,它们之间具有83%的同源性。使用源自PvNADH-GOGAT-I和PvNADH-GOGAT-II的特异性5' cDNA探针进行的Southern分析表明,菜豆基因组中每个基因均存在单拷贝。这两种蛋白质理论上都含有大约100个氨基酸序列,可将每种同工酶定位到不同的亚细胞区室。RT-PCR分析表明,在根瘤发育过程中,PvNADH-GOGAT-II的表达高于PvNADH-GOGAT-I。RT-PCR表达分析还显示,这两个基因均受蔗糖的差异调节。另一方面,氮化合物抑制了PvNADH-GOGAT-I的表达,但未抑制PvNADH-GOGAT-II的表达。原位杂交和启动子表达分析表明,NADH-GOGAT-I和-II基因在菜豆根和根瘤组织中差异表达。对NADH-GOGAT启动子的电子分析表明,其中存在潜在的顺式元件,可介导这些基因的差异组织特异性表达以及对糖和氨基酸的响应性表达。
