Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A rice cell suspension culture system with the Ramy3D promoter, which is induced by sucrose starvation, has been previously utilized to produce large quantities of recombinant proteins. Although this expression system was reported previously to generate a good yield of recombinant hGM-CSF in transgenic rice cell suspension culture, rice alpha-amylase was a dominant protein, with 43% of total secreted proteins and an obstacle to the production and purification of secreted recombinant proteins in a rice cell suspension culture. In this study, an intron-containing self-complementary hairpin RNA (ihpRNA)-mediated post transcriptional gene silencing (PTGS) strategy for the rice alpha-amylase gene was applied in order to overcome this problem in rice cell suspension culture systems. The reduction of the mRNA level of the rice alpha-amylase gene was verified via Northern blot analysis and siRNA, an initiator of RNA interference, was detected via an RNase protection assay. The amount of rice alpha-amylase in the culture medium was reduced to 8.2% as compared to that of the wild-type. A transgenic rice cell suspension culture expressing both the hGM-CSF and ihpRNA of the rice alpha-amylase gene demonstrated that the quantity of rice alpha-amylase was reduced to 22% and that the accumulation of hGM-CSF increased by 1.9-fold as compared to that in the transgenic cell line expressing hGM-CSF only. These results indicated that RNAi technology should be of great utility for suppressing undesirable genes, and should improve accumulation and facilitate the purification of secreted recombinant proteins in rice cell suspension cultures.
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PMID:Amylase gene silencing by RNA interference improves recombinant hGM-CSF production in rice suspension culture. 1863 17

Immunohistochemical staining was applied together with the multicolor fluorescent scheme to demonstrate the amylase activity for polysaccharide hydrolysis in stored or starved aerobic granules that are in substrate deficiency. If sufficient nutrients were present, alpha-amylase and beta-amylase were found close to the surface layer of the original granules. Following storage or starvation during which most external nutrients were depleted, the alpha-amylase and beta-amylase were distributed over the entire granule interior, suggesting endogenous respiration at the core of the granule. In particular, the fluorescent intensities of alpha-amylase and beta-amylase were enriched 5-20 microm from the edge of the internal cavity, suggesting the strong correlation between polysaccharide hydrolysis and the formation of interior cavities. The secreted amylase was located near the living cells, suggesting that the polysaccharide hydrolysis is restricted to local environment that occurs near the functional strains. Internal hydrolysis within the core, for the case of both proteins and polysaccharides should correspond in principle to the loss of granule stability.
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PMID:Amylase activity in substrate deficiency aerobic granules. 1898 31

The present study reports the molecular characterization, cloning, expression, and biochemical characterization of alpha-amylase identified from the disk abalone, Haliotis discus discus cDNA library. The full length of the alpha-amylase cDNA was 1650 bp, and it encoded a polypeptide of 511 amino acids. The predicted HdAmyI molecular mass of mature protein was 54 kDa and the estimated isoelectric point (pI) was 8.3. The alpha-amylase gene showed its characteristic motifs, catalytic sites, substrate binding sites and conserved regions with other known species of alpha-amylases. Purified recombinant HdAmyI exhibited a relatively low activity of 0.1 U/mg protein towards 1% starch. HdAmyI had an optimum temperature and pH of 50 degrees C and 6.5, respectively. It also demonstrated stability in a wide range of temperatures and pH. Tissue-specific mRNA expression results showed that HdAmyI is expressed only in the digestive tract and hepatopancreas, with the highest levels in the hepatopancreas. Over 8 weeks of starvation, alpha-amylase transcription was decreased significantly relative to basal levels. However, after starvation, mRNA transcription was increased and returned to normal level by the 2nd week of feeding, suggesting that the alpha-amylase mRNA expression changes according to variations in food availability at the transcriptional level in disk abalone.
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PMID:Molecular characterization, gene expression analysis and biochemical properties of alpha-amylase from the disk abalone, Haliotis discus discus. 1913 66

Rice has the unique ability to express alpha-amylase under anoxic conditions, a feature that is critical for successful anaerobic germination and growth. Previously, anaerobic conditions were shown to up-regulate the expression of Amy3 subfamily genes (Amy3B/C, 3D, and 3E) in rice embryos. These genes are known to be feedback regulated by the hydrolytic products of starchy endosperm such as the simple sugar glucose. It was found that oxygen deficiency interferes with the repression of Amy3D gene expression imposed by low concentrations of glucose but not with that imposed by higher amounts. This differential anoxic de-repression depending on sugar concentration suggests the presence of two distinct pathways for sugar regulation of Amy3D gene expression. Anoxic de-repression can be mimicked by treating rice embryos with inhibitors of ATP synthesis during respiration. Other sugar-regulated rice alpha-amylase genes, Amy3B/C and 3E, behave similarly to Amy3D. Treatment with a respiratory inhibitor or anoxia also relieved the sugar repression of the rice CIPK15 gene, a main upstream positive regulator of SnRK1A that is critical for Amy3D expression in response to sugar starvation. SnRK1A accumulation was previously shown to be required for MYBS1 expression, which transactivates Amy3D by binding to a cis-acting element found in the proximal region of all Amy3 subfamily gene promoters (the TA box). Taken together, these results suggest that prevention of oxidative phosphorylation by oxygen deficiency interferes with the sugar repression of Amy3 subfamily gene expression, leading to their enhanced expression in rice embryos during anaerobic germination.
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PMID:Interference with oxidative phosphorylation enhances anoxic expression of rice alpha-amylase genes through abolishing sugar regulation. 2053 Jan 96

Most expression systems used for the over production of many enzymes employ carbon catabolite repressible promoters and hence must use sugar free, rich complex media. Use of expression systems to overcome carbon repression opens an avenue for exploiting cheap carbon sources for the production of recombinant enzymes. A self-inducible, catabolite repression free and above all a glucose-activated expression system has been developed using an industrially suitable thermophilic alpha-amylase as a model. The alpha-amylase gene of Bacillus licheniformis MSG without the 5' cre operator produced unimpeded glucose-enhanced expression when fused to the phosphate starvation-inducible strong pst promoter with optimum translation signals in a protease deficient Bacillus subtilis. A combination of high glucose with limited phosphate permitted sufficient biomass and fast transition to quiescent phase by phosphate starvation permitting 1250-fold induction for 70 h. A ~300-fold high productivity (9070 U mL(-1)) and 131-fold increase in specific expression in 2% glucose and a 100-fold high yield in 4% molasses were obtained compared to the production by the parent strain. The yield was 18.5-fold higher than that from the native promoter in an isogenic clone. This strategy of catabolite enhanced enzyme expression uncoupled from biomass formation can be applied for cost effective high production of proteins using starch or molasses.
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PMID:Engineering a repression-free catabolite-enhanced expression system for a thermophilic alpha-amylase from Bacillus licheniformis MSG. 2409

Plants produce proteins such as protease inhibitors and lectins as defenses against herbivorous insects and pathogens. However, no systematic studies have explored the structural responses in the midguts of insects when challenged with plant defensive proteins and lectins across different species. In this study, we fed two kinds of protease inhibitors and lectins to the fruit fly Drosophila melanogaster and alpha-amylase inhibitors and lectins to the cowpea bruchid Callosobruchus maculatus. We assessed the changes in midgut cell structures by comparing them with such structures in insects receiving normal diets or subjected to food deprivation. Using light and transmission electron microscopy in both species, we observed structural changes in the midgut peritrophic matrix as well as shortened microvilli on the surfaces of midgut epithelial cells in D. melanogaster. Dietary inhibitors and lectins caused similar lesions in the epithelial cells but not much change in the peritrophic matrix in both species. We also noted structural damages in the Drosophila midgut after six hours of starvation and changes were still present after 12 hours. Our study provided the first evidence of key structural changes of midguts using a comparative approach between a dipteran and a coleopteran. Our particular observation and discussion on plant-insect interaction and dietary stress are relevant for future mode of action studies of plant defensive protein in insect physiology.
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PMID:Plant Defense Inhibitors Affect the Structures of Midgut Cells in Drosophila melanogaster and Callosobruchus maculatus. 2759 89


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