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981.
During meiosis homologous chromosomes pair, recombine, and synapse, thus ensuring accurate chromosome segregation and the halving of ploidy necessary for gametogenesis. The processes permitting a chromosome to pair only with its homologue are not fully understood, but successful pairing of homologous chromosomes is tightly linked to recombination. In Arabidopsis thaliana, meiotic prophase of rad51, xrcc3, and rad51C mutants appears normal up to the zygotene/pachytene stage, after which the genome fragments, leading to sterility. To better understand the relationship between recombination and chromosome pairing, we have analysed meiotic chromosome pairing in these and in dmc1 mutant lines. Our data show a differing requirement for these proteins in pairing of centromeric regions and chromosome arms. No homologous pairing of mid-arm or distal regions was observed in rad51, xrcc3, and rad51C mutants. However, homologous centromeres do pair in these mutants and we show that this does depend upon recombination, principally on DMC1. This centromere pairing extends well beyond the heterochromatic centromere region and, surprisingly, does not require XRCC3 and RAD51C. In addition to clarifying and bringing the roles of centromeres in meiotic synapsis to the fore, this analysis thus separates the roles in meiotic synapsis of DMC1 and RAD51 and the meiotic RAD51 paralogs, XRCC3 and RAD51C, with respect to different chromosome domains. 相似文献
982.
Eugenia López-López J. Elías Sedeño-Díaz Faviel López Romero Patricia Trujillo-Jiménez 《Reviews in Fish Biology and Fisheries》2009,19(2):127-142
Río Champotón in the Yucatán Peninsula is within the Usumacinta Province, the most diverse in fish fauna in Mexico, and is
part of the Mesoamerican hotspot, with high endemism and exceptional habitat loss. The spatial and seasonal variability of
its fish fauna and their relation to physical habitat characteristics were studied, finding 53 taxa. Canonical correspondence
analysis shows salinity, distance from the river mouth, and substratum type differentiate an estuarine and a freshwater region.
Fish fauna replacement was observed, with taxa exclusive to each region: 26 estuarine and 27 freshwater species. Six freshwater
species enter the estuarine region when the high river flow depletes salinity. Estuary showed greater seasonal differences
in specific richness than the freshwater region, which have sites with higher local specific richness. Despite its small drainage,
Río Champotón has a highly diverse fish fauna and some areas are affected by human activity and the hurricane season. Its
conservation is of critical importance. 相似文献
983.
A Zymomonas mobilis Mutant with Delayed Growth on High Glucose Concentrations 总被引:1,自引:0,他引:1 下载免费PDF全文
Eugenia Douka Anna Irini Koukkou Georgios Vartholomatos Stathis Frillingos Emmanuel M. Papamichael Constantin Drainas 《Journal of bacteriology》1999,181(15):4598-4604
Exponentially growing cells of Zymomonas mobilis normally exhibit a lag period of up to 3 h when transferred from 0.11 M (2%) to 0.55 M (10%) glucose liquid medium. A mutant of Z. mobilis (CU1Rif2), fortuitously isolated, showed more than a 20-h lag period when grown under the same conditions, whereas on 0.55 M glucose solid medium, it failed to grow. The growth of CU1Rif2 on elevated concentrations of other fermentable (0.55 M sucrose or fructose) or nonfermentable (0.11 M glucose plus 0.44 M maltose or xylose) sugars appeared to be normal. Surprisingly, CU1Rif2 cells grew without any delay on 0.55 M glucose on which wild-type cells had been incubated for 3 h and removed at the beginning of their exponential phase. This apparent preconditioning was not observed with medium obtained from wild-type cells grown on 0.11 M glucose and supplemented to 0.55 M after removal of the wild-type cells. Undelayed growth of CU1Rif2 on 0.55 M glucose previously conditioned by the wild type was impaired by heating or protease treatment. It is suggested that in Z. mobilis, a diffusible proteinaceous heat-labile factor, transitionally not present in 0.55 M glucose CU1Rif2 cultures, triggers growth on 0.55 M glucose. Biochemical analysis of glucose uptake and glycolytic enzymes implied that glucose assimilation was not directly involved in the phenomenon. By use of a wild-type Z. mobilis genomic library, a 4.5-kb DNA fragment which complemented in low copy number the glucose-defective phenotype as well as glucokinase and glucose uptake of CU1Rif2 was isolated. This fragment carries a gene cluster consisting of four putative coding regions, encoding 167, 167, 145, and 220 amino acids with typical Z. mobilis codon usage, -35 and -10 promoter elements, and individual Shine-Dalgarno consensus sites. However, strong homologies were not detected in a BLAST2 (EMBL-Heidelberg) computer search with known protein sequences. 相似文献
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987.
Douglas Ray Eugenia Cornell Donald Schneider 《Biochemical and biophysical research communications》1976,71(4):1246-1250
Evidence that intracellular protein degradation occurs in lysosomes has been indirect and derived from liver perfusion (1) or the inhibitor studies (2,3). We report here that liver lysosomes of greater purity are obtained from fed rats than from fasted rats. Lysosomes of less purity may contain an enlarged pool of partially degraded intracellular protein; on the other hand, less purity could be due to less marker enzyme, NAβGase. Measurements of NAβGase activity and lysosomal protein of rat livers showed that both NAβGase and lysosomal protein increased upon fasting but protein more so (3.5 and 6.5x, in 2 days). The increase in lysosomal protein is direct evidence that liver lysosomes are involved in intracellular protein degradation during fasting of rats. 相似文献
988.
For successful colonization of the mammalian host, orally acquired bacteria must overcome the extreme acidic stress (pH < 2.5) encountered during transit through the host stomach. The glutamate‐dependent acid resistance (GDAR) system is by far the most potent acid resistance system in commensal and pathogenic Escherichia coli, Shigella flexneri, Listeria monocytogenes and Lactococcus lactis. GDAR requires the activity of glutamate decarboxylase (GadB), an intracellular PLP‐dependent enzyme which performs a proton‐consuming decarboxylation reaction, and of the cognate antiporter (GadC), which performs the glutamatein/γ‐aminobutyrateout (GABA) electrogenic antiport. Herein we review recent findings on the structural determinants responsible for pH‐dependent intracellular activation of E. coli GadB and GadC. A survey of genomes of bacteria (pathogenic and non‐pathogenic), having in common the ability to colonize or to transit through the host gut, shows that the gadB and gadC genes frequently lie next or near each other. This gene arrangement is likely to be important to ensure timely co‐regulation of the decarboxylase and the antiporter. Besides the involvement in acid resistance, GABA production and release were found to occur at very high levels in lactic acid bacteria originally isolated from traditionally fermented foods, supporting the evidence that GABA‐enriched foods possess health‐promoting properties. 相似文献
989.
Yolanda Paola Maturano María Cristina Nally María Eugenia Toro Lucía Inés Castellanos de Figueroa Mariana Combina Fabio Vazquez 《World journal of microbiology & biotechnology》2012,28(11):3135-3142
Killer yeasts are frequently used to combat and prevent contamination by wild-type yeasts during wine production and they can even dominate the wine fermentation. Stuck and sluggish fermentations can be caused by an unbalanced ratio of killer to sensitive yeasts in the bioreactor, and therefore it is important to determine the proportion of both populations. The aim of this study was to provide a simple tool to monitor killer yeast populations during controlled mixed microvinifications of killer and sensitive Saccharomyces cerevisiae. Samples were periodically extracted during vinification, seeded on Petri dishes and incubated at 25 and 37?°C; the latter temperature was assayed for possible inactivation of killer toxin production. Colonies developed under the described conditions were randomly transferred to killer phenotype detection medium. Significant differences in the killer/sensitive ratio were observed between both incubation temperatures in all microvinifications. These results suggest that 37?°C seems a better option to determine the biomass of sensitive yeasts, in order to avoid underestimation of sensitive cells in the presence of killer yeasts during fermentations. Incubation at a toxin-inhibiting temperature clearly showed the real ratio of killer to sensitive cells in fermentation systems. 相似文献
990.
In situ nitrogen uptake by leaves and epiphytes was studied in a Mediterranean seagrass (Posidonia oceanica) meadow impacted from a fish farm and a pristine meadow, using 15NH4 and 15NO3 as tracers. In the impacted meadow both leaves and epiphytes yielded higher N concentrations and showed higher specific N uptake, suggesting a linkage between N uptake and its accumulation. Epiphytes took up N faster than leaves in relation to their corresponding biomass, but when assessed per unit area, N uptake was higher in leaves. Leaf N uptake was negatively correlated with epiphyte N uptake. With increasing epiphyte load on leaves, N leaf uptake decreased while N epiphyte uptake increased, indicating that epiphyte overgrowth hinders N uptake by P. oceanica leaves. Epiphyte contribution to total N uptake increased, while that of leaves decreased at the impacted meadow. However, 2-3 times less N was transferred daily from the water column to the benthic compartment, through seagrass and epiphyte uptake on total, at the impacted meadow. Therefore, it is probably still the loss of the key species - the seagrass - which plays the most important role in N cycling in seagrass ecosystems. 相似文献