Transgene expression in mammary glands of newborn rats

Transgene expression in the mammary glands of newborn rats was studied to establish an early selection system for transgenic animals producing exogenous proteins in their milk during lactation. A fusion gene composed of the bovine alpha S1 casein gene promoter and the human growth hormone gene was microinjected into rat embryos. Transgenic lines that produced human growth hormone in their milk were established and used in this study. Immediately after birth, and without any hormone treatment, human growth hormone was found in the extracts of mammary glands from both male and female rats derived from the line secreting human growth hormone in their milk. The expression of the transgene in mammary glands of newborn rats was also detected by the presence of human growth hormone mRNA. Nontransgenic newborn rats did not express the human growth hormone gene in their mammary glands, while the mRNA for rat alpha casein, an endogenous milk protein, was found in all mammary glands from both transgenic and nontransgenic neonates. These results show that analyzing the expression of transgenes in the mammary glands of neonates is a valuable tool to select the desired transgenic animals and to shorten the selection schedules establishing the transgenic animals. © 1996 Wiley-Liss, Inc.     

Expression and localization of DNA topoisomerase II during rat spermatogenesis

The potential role(s) of DNA topoiosmerase II (topo II) during chromatin changes that characterize different stages of spermatogenesis was investigated in the rat by an analysis of the expression and localization of topo II mRNA and protein in individual spermatogenic cells. Expression of topo II was restricted to spermatogonia, spermatocytes, and round and early-elongating spermatids. Two protein bands of 177 and 170 kDa were detected in immunoblots of spermatocytes and round spermatids, while bands of 148 and 142 kDa were prominent in preparations of elongating spermatids. Topo II levels and distribution patterns, as observed by immunofluorescent microscopy, exhibited cell type-specific variations. Differences in topo II staining patterns were also apparent when nuclear matrices of spermatogenic cells were prepared with different extraction conditions. In addition to its possible function as a structural component, topo II, associated with nuclear matrix preparations from spermatogenic cells, possessed catalytic activity. These observations indicate that both the 177 and 170 kDa and the 148 and 142 kDa forms of topo II share similar structural and functional properties. Topo IIβ mRNA was transcribed in rat spermatogenic cells at 6.2 kb. Relative levels of topo IIβ mRNA were high in spermatogonia and spermatocytes, and decreased in both round and early-elongating spermatids. Changes in topo II expression levels and localization patterns represent distinct stage-specific markers for the maturation of spermatogenic cells, and are consistent with the involvement of topo II in mediating DNA modifications and chromatin changes during spermatogenesis. © 1996 Wiley-Liss, Inc.     

A molecular marker confirms that the rate of adult maturation is largely independent of the rate of pre-adult development in Drosophila melanogaster

The separation of adult from pre-adult life seen with animals such as Drosophila melanogaster, which are holometabolous and undergo complete metamorphosis, provides the opportunity to examine the contribution of pre-adult rate of development on the rate of maturation and aging of the adult. Recent work has shown that when ambient temperature is used to alter the rate of development there is little effect on adult life span. From this work it has been concluded that the rate of aging is largely independent of the rate of pre-adult development. However, the techniques used to examine life span did not allow for the examination of the earliest events of adult life. Our experimental design used a molecular marker linked to life span as a sensitive measure of determining physiological age. In this way, we were able to evaluate the effect of pre-adult rate of development on the earliest events of adult life. Using ambient temperature to alter both the rate of development in the pre-adult and the rate of aging in the adult independently, we were able to show that it is the ambient temperature at which the adults are living that is the principle determinant of the rate of maturation and aging of the adult. Little effect was seen on the rate of adult maturation in response to an acceleration or a slowing down of the rate of pre-adult development as measured by our molecular marker. These data support the conclusions drawn by others who examined the effect of the rate of development on adult life expectancy. The timing mechanisms at work during pre-adult and adult life appear to be largely regulated separately. If there is such a thing as a physiological clock, it appears to be reset upon eclosion. © 1996 Wiley-Liss, Inc.     

高效合成葡萄糖二酸酿酒酵母工程菌的构建

葡萄糖二酸是天然存在的一种重要二元酸,其在医疗保健和化工工业等领域具有很高的实际应用价值,因此被称为"最具价值的生物炼制产品之一".以酿酒酵母(Saccharomyces cerevisiae)为底盘微生物,文中考察了过量表达肌醇转运蛋白Itr1、融合表达肌醇加氧酶和葡萄糖醛酸脱氢酶以及弱化表达葡萄糖6-磷酸脱氢酶基因...     

Molecular Evolution across Mouse Spermatogenesis

Genes involved in spermatogenesis tend to evolve rapidly, but we lack a clear understanding of how protein sequences and patterns of gene expression evolve across this complex developmental process. We used fluorescence-activated cell sorting (FACS) to generate expression data for early (meiotic) and late (postmeiotic) cell types across 13 inbred strains of mice (Mus) spanning ∼7 My of evolution. We used these comparative developmental data to investigate the evolution of lineage-specific expression, protein-coding sequences, and expression levels. We found increased lineage specificity and more rapid protein-coding and expression divergence during late spermatogenesis, suggesting that signatures of rapid testis molecular evolution are punctuated across sperm development. Despite strong overall developmental parallels in these components of molecular evolution, protein and expression divergences were only weakly correlated across genes. We detected more rapid protein evolution on the X chromosome relative to the autosomes, whereas X-linked gene expression tended to be relatively more conserved likely reflecting chromosome-specific regulatory constraints. Using allele-specific FACS expression data from crosses between four strains, we found that the relative contributions of different regulatory mechanisms also differed between cell types. Genes showing cis-regulatory changes were more common late in spermatogenesis, and tended to be associated with larger differences in expression levels and greater expression divergence between species. In contrast, genes with trans-acting changes were more common early and tended to be more conserved across species. Our findings advance understanding of gene evolution across spermatogenesis and underscore the fundamental importance of developmental context in molecular evolutionary studies.