interaction between mitochondrial adenylate kinase and nucleoside diphosphate kinase. Adenylate kinase stimulates nucleoside diphosphate kinase activity, whereas nucleoside diphosphate kinase inhibits adenylate kinase activity. the net effect may be unchanged ADP production albeit with different rates of substrate consumption
interaction between mitochondrial adenylate kinase and nucleoside diphosphate kinase. Adenylate kinase stimulates nucleoside diphosphate kinase activity, whereas nucleoside diphosphate kinase inhibits adenylate kinase activity. the net effect may be unchanged ADP production albeit with different rates of substrate consumption
interaction between mitochondrial adenylate kinase and nucleoside diphosphate kinase. Adenylate kinase stimulates nucleoside diphosphate kinase activity, whereas nucleoside diphosphate kinase inhibits adenylate kinase activity. The net effect may be unchanged ADP production albeit with different rates of substrate consumption
T-DNA insertion mutant. Developing siliques of heterozygous parents contain approximately 25% pale and approximately 75% green seeds. Embryos dissected out of these seeds have a pale green to white color, whitish embryos are homozygous amk2 mutants. Homozygous amk2 seedlings are bleached and strongly retarded in growth. Amk2 heterozygous plants show significantly reduced expression of genes involved in purine de novo synthesis such as PurA, PurB, PurC, PurL, and PurM. Total adenylate kinase activity is reduced by 21% in for ATP formation and 37% for ADP formation
T-DNA insertion mutant. Developing siliques of heterozygous parents contain approximately 25% pale and approximately 75% green seeds. Embryos dissected out of these seeds have a pale green to white color, whitish embryos are homozygous amk2 mutants. Homozygous amk2 seedlings are bleached and strongly retarded in growth. Amk2 heterozygous plants show significantly reduced expression of genes involved in purine de novo synthesis such as PurA, PurB, PurC, PurL, and PurM. Total adenylate kinase activity is reduced by 21% in for ATP formation and 37% for ADP formation
T-DNA insertion mutant. Developing siliques of heterozygous parents contain approximately 25% pale and approximately 75% green seeds. Embryos dissected out of these seeds have a pale green to white color, whitish embryos are homozygous amk2 mutants. Homozygous amk2 seedlings are bleached and strongly retarded in growth. Amk2 heterozygous plants show significantly reduced expression of genes involved in purine de novo synthesis such as PurA, PurB, PurC, PurL, and PurM. Total adenylate kinase activity is reduced by 21% in for ATP formation and 37% for ADP formation
T-DNA insertion mutants show no phenotype, but significantly increased expression of genes involved in adenine salvage such as Apt1 to Apt5, and Adk1 and Adk2. Also, the PRS genes, responsible for supplying phosphoribosyl diphosphate are significantly induced. 2.5fold increase in expression of isoform Amk2
T-DNA insertion mutants show no phenotype, but significantly increased expression of genes involved in adenine salvage such as Apt1 to Apt5, and Adk1 and Adk2. Also, the PRS genes, responsible for supplying phosphoribosyl diphosphate are significantly induced. 2.5fold increase in expression of isoform Amk2
T-DNA insertion mutants show no phenotype, but significantly increased expression of genes involved in adenine salvage such as Apt1 to Apt5, and Adk1 and Adk2. Also, the PRS genes, responsible for supplying phosphoribosyl diphosphate are significantly induced. 2.5fold increase in expression of isoform Amk2