To study actions of the genes associated with tight junction, adherent junction, focal adhesion, and gap junction during liver regeneration (LR), these genes were obtained by collecting data from databases and thesi...To study actions of the genes associated with tight junction, adherent junction, focal adhesion, and gap junction during liver regeneration (LR), these genes were obtained by collecting data from databases and thesis, and their expression profiles in rat regenerating liver were detected employing Rat Genome 230 2.0 array. Next the LR-associated genes were identified by comparing the difference between sham operation (SO) and partial hepatectomy (PH) groups. 79, 53, 109, 53 genes involved in the above four junctions were found to be LR-associated. The initial and total expression numbers of these genes occurring in the initial phase of LR, G0/G1, cell proliferation, cell differentiation, and structure-functional rebuilding were 124, 43, 122, 10, and 249, 145, 957, 306, respectively, illustrating that genes were initi^ly expressed mainly in the initiation stage, and functioned in different phases. Up-regulation-and down-regulation to a total of 972 and 540 times, as well as, 41 types of expression patterns showed that the physiological and biochemical activities were diverse and complicated in LR. According to the data, there was an increase in the forepart and prophase, but a decrease in late-metaphase and anaphase for gap junction assembly. Focal adhesion formation displayed an enhancement in forepart, prophase, and anaphase; and formation of tight junctions and adherent junctions last throughout the LR.展开更多
The genome sequence information in combination with DNA microarrays promises to revolutionize the way of cellu-lar and molecular biological research by allowing complex mixtures of RNA and DNA to interrogated in a par...The genome sequence information in combination with DNA microarrays promises to revolutionize the way of cellu-lar and molecular biological research by allowing complex mixtures of RNA and DNA to interrogated in a parallel and quantita-tive fashion. DNA microarrays can be used to measure levels of gene expression for tens of thousands of gene simultane-ously and take advantage of all available sequence information for experimental design and data interpretation in pursuit of biological understanding. Recent progress in experimental genomics allows DNA microarrays not simply to provide a cata-logue of all the genes and information about their function, but to understand how the components work together to comprise functioning cells and organisms. This brief review gives a survey of DNA microarrays technology and its applications in ge-nome and gene function analysis, gene expression studies, biological signal and defense system, cell cycle regulation, mechanism of transcriptional regulation, proteomics, and the functionality of food component.展开更多
基金the National Basic Research 973 Pre-research Program of China (No. 2006CB708506).
文摘To study actions of the genes associated with tight junction, adherent junction, focal adhesion, and gap junction during liver regeneration (LR), these genes were obtained by collecting data from databases and thesis, and their expression profiles in rat regenerating liver were detected employing Rat Genome 230 2.0 array. Next the LR-associated genes were identified by comparing the difference between sham operation (SO) and partial hepatectomy (PH) groups. 79, 53, 109, 53 genes involved in the above four junctions were found to be LR-associated. The initial and total expression numbers of these genes occurring in the initial phase of LR, G0/G1, cell proliferation, cell differentiation, and structure-functional rebuilding were 124, 43, 122, 10, and 249, 145, 957, 306, respectively, illustrating that genes were initi^ly expressed mainly in the initiation stage, and functioned in different phases. Up-regulation-and down-regulation to a total of 972 and 540 times, as well as, 41 types of expression patterns showed that the physiological and biochemical activities were diverse and complicated in LR. According to the data, there was an increase in the forepart and prophase, but a decrease in late-metaphase and anaphase for gap junction assembly. Focal adhesion formation displayed an enhancement in forepart, prophase, and anaphase; and formation of tight junctions and adherent junctions last throughout the LR.
文摘The genome sequence information in combination with DNA microarrays promises to revolutionize the way of cellu-lar and molecular biological research by allowing complex mixtures of RNA and DNA to interrogated in a parallel and quantita-tive fashion. DNA microarrays can be used to measure levels of gene expression for tens of thousands of gene simultane-ously and take advantage of all available sequence information for experimental design and data interpretation in pursuit of biological understanding. Recent progress in experimental genomics allows DNA microarrays not simply to provide a cata-logue of all the genes and information about their function, but to understand how the components work together to comprise functioning cells and organisms. This brief review gives a survey of DNA microarrays technology and its applications in ge-nome and gene function analysis, gene expression studies, biological signal and defense system, cell cycle regulation, mechanism of transcriptional regulation, proteomics, and the functionality of food component.