Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
 31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Isoflavones are legume-specific secondary metabolites that function as defence compounds, signal molecules and regulators of gene expression during both pathogen attack and beneficial plant-microbe interactions. They are synthesised by a branch of the core phenylpropanoid pathway, using several isoenzymes within each enzymatic step. Gene-specific quantitative real-time reverse transcriptase PCR (qRT-PCR) was used to quantify expression of isoflavone synthesis genes in soybean (Glycine max L). Genes encoding chalcone synthase 7 (CHS7), chalcone synthase 8 (CHS8) and isoflavone synthase 1 (IFS1) displayed high basal expression levels in roots compared with hypocotyls, suggesting they could be the gene family members encoding the isoenzyme that contributes the most to the principal substrate flux towards specific isoflavone synthesis in roots. The genes encoding phenylalanine ammonia lyase 1 (PAL1) and IFS1 showed induction in root tissue after inoculation with Bradyrhizobium japonicum (Kirchner) Jordan, suggesting a control point. The absence of a functional nodulation regulator, GmNARK (G. max nodulation autoregulation receptor kinase), in the soybean mutant nts1007 resulted in significantly increased basal expression of PAL1 compared with levels induced by B. japonicum, suggesting that GmNARK is a negative regulator for isoflavone phenylpropanoid pathway genes during nodulation and that distinct genes, as opposed to the complete pathway, are coordinately regulated by the nodulation status of the mutant.
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PMID:Transcription profiling of the isoflavone phenylpropanoid pathway in soybean in response to Bradyrhizobium japonicum inoculation. 3248 Aug 58

Availability of genome sequence of different legume species has provided an opportunity to characterize the abundance, distribution, and divergence of canonical intact long terminal retrotransposons (In-LTR-RT) superfamilies. Among seven legume species, Arachis ipaensis (Aip) showed the highest number of full-length canonical In-LTR-RTs (3325), followed by Glycine max (Gma, 2328), Vigna angularis (Van, 1625), Arachis durensis (Adu, 1348), Lotus japonicus (Lja, 1294), Medicago truncatula (Mtr, 788), and Circer arietinum (Car, 124). Divergence time analysis demonstrated that the amplification timeframe of LTR-RTs dramatically varied in different families. The average insertion time of Copia element varied from 0.51 (Van) to 1.37 million years ago (Mya) (Adu, and Aip), whereas that of Gypsy was between 0.22 (Mtr) and 1.82 Mya (Adu). Bayesian phylogenetic tree analysis suggested that the 1397 and 1917 reverse transcriptase (RT) domains of Copia and Gypsy families of the seven legume species were clustered into 7 and 14 major groups, respectively. The highest proportion (approximately 94.79-100%) of transposable element (TE)-associated genes assigned to pathways was mapped to metabolism-related pathways in all species. The results enabled the structural understanding of full-length In-LTR-RTs and will be valuable resource for the further study of the impact of TEs on gene structure and expression in legume species.
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PMID:Genome wide annotation and characterization of young, intact long terminal repeat retrotransposons (In-LTR-RTs) of seven legume species. 3294 38


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