Micro RNA differential expression in primary retroperitoneal liposarcoma / 中国现代普通外科进展

Objective:To explore the miRNA (micro RNA)differential expression profile between primary retroperitoneal liposarcoma tissues and normal fat tissues,and to provide the evidence that miRNA were involved in the molecular pathways of primary retroperitoneal liposarcoma tissues' occurrence.Methods:Collecting retroperitoneal liposarcoma tissues and normal fat tissues from 4 patients after radical surgery of retroperitoneal lipsarcoma.Using microarray analysis.The tissues' miRNA hybridizated with human's LC Sciences microRNA Microarray-Single (miRBase 21.0) expression profile gene chips,and got the date.Analyzing the differential expressing of the siginal date by LOWESS.Results:Total 38 differential expressed miRNA were found (P＜0.05),including 23 over-expression and 15 low-expression miRNAs.10 of them(38 differential miRNAs) was significant deviation (P＜0.01),including 4 over-expression and 6 low-expression.Date analysis revealed that some miRNAs were associated some different tumors,Conclusion:The number of over-expression were more than the low-expression in primary retroperitoneal liposarcoma compared with the normol fat tissue,which indicate that the genes expression are less abundant in primary retroperitoneal li-posarcoma;some of the miRNAs might involved in the molecular pa-thways of primary retroperitoneal liposarcoma tissues' occurrence and recurrence,they might become the target point of the targetedtherapy of the primary retroperitoneal liposarcoma,some of the over-expressed miRNAs can become new biomarkers in the following diagnosis of the primary retroperitoneal liposarcoma.

Glyoxylate cycle is required for the overproduction of glutamate but is not essential for Corynebacterium glutamicum growth on glucose / 生物工程学报

The glyoxylate cycle was hypothesed to be indispensable for glutamate overproduction in coryneform bacteria, for it was thought to fulfill anaplerotic functions and to supply energy during the growth phase. During glutamate overproduction phase, however, it has been noted that the high level of the cycle is detrimental to the glutamate production. In order to clarify the relationship between the glutamate production and the glyoxylate cycle, a chromosomal aceA-disrupted mutant of wild-type C. glutamicum ATCC 13032 was constructed. The isocitrate lyase (ICL) activity of the parental strain was 0.011 u/mg of protein and reached 1.980 u/mg of protein after acetate induction; the mutant strain WTdeltaA, however, had no detectable ICL activity and was no longer able to grow on minimal medium with acetate as the sole carbon source. Compared with the wild-type C. glutamicum WT, the mutant strain WTdeltaA, exhibited the same growth rate with glucose as the sole carbon source, indicating glyoxylate cycle is not required for its growth on glucose. On the contrary, the glutamate production in WTdeltaA was severely impaired and more residual glucose was found in the fermentation broth at the end of fermentation with the mutant strain than with the wild-type strain. Further investigations into the relationship between the glutamate production and the glyoxylate cycle are under the way, which may help to elucidate the mechanism of glutamate overproduction.

THE TWO ISOENZYMES OF S.CEREVISIAE GLYCEROL 3-PHOSPHATE DEHYDROGENASE / 微生物学通报

NAD +-dependent cytosolic glycerol-3-phosphate dehydrogenase in Sacch aromyces cerevisiae is one of the key enzymes in metabolic pathway of glycerol . catalysing the reduction of dihydroxyacetone phosphate to glycerol-3-phosph ate.It has two isoenzymes.To study the differences between their structures, their expression of encoding genes and their functions may help increase the understan ding of the cell response mechanism to the hyperosmotic and anoxic conditions. In this paper the research on the two isoenzymes was reviewed.