Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.1.6 (CAD)
 4,420 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The first three steps in mammalian de novo pyrimidine biosynthesis are catalyzed by the multifunctional protein designated CAD. Regions of the single 240-kDa poly-peptide chain are folded into separate structural domains that have discrete functions. Previous studies suggested that CAD forms predominantly trimers. The trimers are found to be in slow equilibrium with hexamers and higher oligomers composed of multiples of three copies of the CAD polypeptide chain. However, quantitative chemical crosslinking studies of CAD with dimethyl suberimidate were used here to show a progressive conversion of monomer to crosslinked hexamer. High levels of the hexamer accumulate in the reaction mixture, suggesting that the major oligomeric form is hexameric, although residual amounts of smaller oligomers remain present. Larger oligomers may form by association of hexamers and are seen after longer crosslinking times. Sucrose gradient centrifugation shows a 20.8S species to be the slowest sedimenting peak, while the larger species sediments at 27.9S. Electron microscopic studies of rotary-shadowed preparations of CAD have confirmed that, while small amounts of other oligomeric forms are present, the CAD monomer is primarily associated into cyclic hexamers with an open planar appearance.
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PMID:Oligomeric structure of the multifunctional protein CAD that initiates pyrimidine biosynthesis in mammalian cells. 299 85

Saccharum spontaneum has been used for the development of energy cane a crop aimed to be used for the production of second-generation ethanol, or lignocellulosic ethanol. Lignin is a main challenge in the conversion of cell wall sugars into ethanol. In our studies to isolate the genes the lignin biosynthesis in S. spontaneum we have had great difficulty in RT-PCR reactions. Thus, we evaluated the effectiveness of different additives in the amplification of these genes. While COMT and CCoAOMT genes did not need any additives for other genes there was no amplification (HCT, F5H, 4CL and CCR) or the yield was very low (CAD and C4H). The application of supplementary cDNA was enough to overcome the non-specificity and low yield for C4H and C3H, while the addition of 0.04% BSA + 2% formamide was effective to amplify 4CL, CCR, F5H and CCR. HCT was amplified only by addition of 0.04% BSA + 2% formamide + 0.1 M trehalose and amplification of PAL was possible with addition of 2% of DMSO. Besides optimization of expression assays, the results show that additives can act independently or synergistically.
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PMID:Optimization of RT-PCR reactions in studies with genes of lignin biosynthetic route in Saccharum spontaneum. 2964 70

We used primers designed on conserved gene regions of several species to isolate the most expressed genes of the lignin pathway in four Saccharum species. S. officinarum and S. barberi have more sucrose in the culms than S. spontaneum and S. robustum, but less polysaccharides and lignin in the cell wall. S. spontaneum, and S. robustum had the lowest S/G ratio and a lower rate of saccharification in mature internodes. Surprisingly, except for CAD, 4CL, and CCoAOMT for which we found three, two, and two genes, respectively, only one gene was found for the other enzymes and their sequences were highly similar among the species. S. spontaneum had the highest expression for most genes. CCR and CCoAOMT B presented the highest expression; 4CL and F5H showed increased expression in mature tissues; C3H and CCR had higher expression in S. spontaneum, and one of the CADs isolated (CAD B) had higher expression in S. officinarum. The similarity among the most expressed genes isolated from these species was unexpected and indicated that lignin biosynthesis is conserved in Saccharum including commercial varieties Thus the lignin biosynthesis control in sugarcane may be only fully understood with the knowledge of the promotor region of each gene.
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PMID:Deposition of lignin in four species of Saccharum. 3097 33