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991.
An efficient screening method following UV mutagenesis yielded a high frequency of improved mutants of Trichosporon brassicae CGMCC 0574, a wild-type esterase-producer capable of enantioselectively hydrolyzing the ethyl ester of ketoprofen [2-(3-benzoylphenyl)
propionic acid]. The mutant had an activity 1.8-fold higher than the wild type and was stable in its enzyme production for
ten serial transfers. As the best single carbon source, isopropanol improved the specific activity of the enzyme 5-fold; and
this did not result from the effect of cell permeabilization. An 18-h culture grown on a medium containing 0.5% glucose plus
0.5% isopropanol produced 3-fold as much esterase as a culture grown on 1% glucose. 相似文献
992.
Structure of Amylase Genes in Populations of Pacific Cupped Oyster (Crassostrea gigas): Tissue Expression and Allelic Polymorphism 总被引:2,自引:0,他引:2
Sellos D Moal J Degremont L Huvet A Daniel JY Nicoulaud S Boudry P Samain JF Van Wormhoudt A 《Marine biotechnology (New York, N.Y.)》2003,5(4):360-372
Using the previously determined complementary DNA Sequence of Crassostrea gigas amylase (Y08370), we designed several oligonucleotide primers and used them with polymerase chain reaction (PCR) technology to characterize oyster amylase gene sequences. Two genes encoding 2 different amylases were characterized and sequenced. The 2 genes are similarly organized with 8 exons and 7 introns. Intron insertions are found at the same location in the 2 genes. Sizes and nucleotide sequences are different for the different introns inside each gene and different for the corresponding introns in the 2 genes. Comparing the 2 genes, around 10% of the nucleotides are different along the exons, and comparing the 2 deduced protein sequences, a mean value of 10.4% of amino acids are changed. Genes A and B encode mature proteins of, respectively, 500 and 499 amino acids, which present 94% similarity. A microsatellite (TC37) that constitutes the largest part of intron 4 of gene A has been used as a polymorphic marker. A method consisting of a PCR step followed by EcoRI digestion of the obtained fragments was used to observe polymorphism in these 2 genes. Six and 4 alleles for genes A and B, respectively, have been sequenced, leading to a maximum of 2.9% base change. The 2 genes are ubiquitously expressed in the different digestive tissues with quantitative differences. Gene A is strongly expressed in the digestive gland and at a lower level in stomach, while gene B is preferentially expressed in the labial palps. The microsatellite repeat was used in the analysis of 4 populations of Crassostrea gigas from the French Atlantic coast. A high level of polymorphism observed with 30 different alleles of gene A inside the populations should allow their characterization using the mean value of the microsatellite allelic distribution. These populations showed a low level of differentiation (F
st between 0 and 0.011); however, the population of Bonne Anse appeared to be distinguished from the other populations. 相似文献
993.
Natural selection can produce a correlation between local recombination rates and levels of neutral DNA polymorphism as a consequence of genetic hitchhiking and background selection. Theory suggests that selection at linked sites should affect patterns of neutral variation in partially selfing populations more dramatically than in outcrossing populations. However, empirical investigations of selection at linked sites have focused primarily on outcrossing species. To assess the potential role of selection as a determinant of neutral polymorphism in the context of partial self-fertilization, we conducted a multivariate analysis of single-nucleotide polymorphism (SNP) density throughout the genome of the nematode Caenorhabditis elegans. We based the analysis on a published SNP data set and partitioned the genome into windows to calculate SNP densities, recombination rates, and gene densities across all six chromosomes. Our analyses identify a strong, positive correlation between recombination rate and neutral polymorphism (as estimated by noncoding SNP density) across the genome of C. elegans. Furthermore, we find that levels of neutral polymorphism are lower in gene-dense regions than in gene-poor regions in some analyses. Analyses incorporating local estimates of divergence between C. elegans and C. briggsae indicate that a mutational explanation alone is unlikely to explain the observed patterns. Consequently, we interpret these findings as evidence that natural selection shapes genome-wide patterns of neutral polymorphism in C. elegans. Our study provides the first demonstration of such an effect in a partially selfing animal. Explicit models of genetic hitchhiking and background selection can each adequately describe the relationship between recombination rate and SNP density, but only when they incorporate selfing rate. Clarification of the relative roles of genetic hitchhiking and background selection in C. elegans awaits the development of specific theoretical predictions that account for partial self-fertilization and biased sex ratios. 相似文献
994.
Mester DI Ronin YI Hu Y Peng J Nevo E Korol AB 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2003,107(6):1102-1112
The paper is devoted to the problem of multipoint gene ordering with a particular focus on "dominance" complication that acts differently in conditions of coupling-phase and repulsion-phase markers. To solve the problem we split the dataset into two complementary subsets each containing shared codominant markers and dominant markers in the coupling-phase only. Multilocus ordering in the proposed algorithm is based on pairwise recombination frequencies and using the well-known travelling salesman problem (TSP) formalization. To obtain accurate results, we developed a multiphase algorithm that includes synchronized-marker ordering of two subsets assisted by re-sampling-based map verification, combining the resulting maps into an integrated map followed by verification of the integrated map. A new synchronized Evolution-Strategy discrete optimization algorithm was developed here for the proposed multilocus ordering approach in which common codominant markers facilitate stabilization of the marker order of the two complementary maps. High performance of the employed algorithm allows systematic treatment for the problem of verification of the obtained multilocus orders, based on computing-intensive bootstrap and jackknife technologies for detection and removing unreliable marker scores. The efficiency of the proposed algorithm was demonstrated on simulated and real data.Communicated by J.W. Snape 相似文献
995.
Giancola S Marhadour S Desloire S Clouet V Falentin-Guyomarc'h H Laloui W Falentin C Pelletier G Renard M Bendahmane A Delourme R Budar F 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2003,107(8):1442-1451
The radish Rfo gene restores male fertility in radish or rapeseed plants carrying Ogura cytoplasmic male-sterility. This system was first discovered in radish and was transferred to rapeseed for the production of F1 hybrid seeds. We aimed to identify the region of the Arabidopsis genome syntenic to the Rfo locus and to characterize the radish introgression in restored rapeseed. We used two methods: amplified consensus genetic markers (ACGMs) in restored rapeseed plants and construction of a precise genetic map around the Rfo gene in a segregating radish population. The use of ACGMs made it possible to detect radish orthologs of Arabidopsis genes in the restored rapeseed genome. We identified radish genes, linked to Rfo in rapeseed and whose orthologs in Arabidopsis are carried by chromosomes 1, 4 and 5. This indicates several breaks in colinearity between radish and Arabidopsis genomes in this region. We determined the positions of markers relative to each other and to the Rfo gene, using the progeny of a rapeseed plant with unstable meiotic transmission of the radish introgression. This enabled us to produce a schematic diagram of the radish introgression in rapeseed. Markers which could be mapped both on radish and restored rapeseed indicate that at least 50 cM of the radish genome is integrated in restored rapeseed. Using markers closely linked to the Rfo gene in rapeseed and radish, we identified a contig spanning six bacterial artificial chromosome (BAC) clones on Arabidopsis chromosome 1, which is likely to carry the orthologous Rfo gene.Electronic Supplementary Material Supplementary material is available in the online version of this article at Communicated by H. C. BeckerS. Giancola and S. Marhadour contributed equally to this work 相似文献
996.
Cryopreservation of callus tissue of Artimisia annua L. was optimized. Two lines of calli were precultured on MS medium with 5% (v/v) dimethyl sulfoxide, and protected by a cryoprotectant containing 15% (v/v) ethylene glycol, 15% (v/v) dimethyl sulfoxide, 30% (v/v) glycerol and 13.6% (w/v) sucrose. The highest survival rate of callus A201 reached 87% after it was pretreated at 25°C, cryopreserved by liquid nitrogen, recovered in water bath at 25°C and reloaded at 25°C with 34% (w/v) sucrose solution, and that of callus A202 reached 78% after it was treated as callus A201, except pretreated at 35°C, recovered at 35°C and reloaded with 47.8% (w/v) sucrose solution. 相似文献
997.
Genetic mapping and molecular characterization of the self-incompatibility (S) locus in Petunia inflata 总被引:4,自引:0,他引:4
Gametophytic self-incompatibility (SI) possessed by the Solanaceae is controlled by a highly polymorphic locus called the S locus. The S locus contains two linked genes, S-RNase, which determines female specificity, and the as yet unidentified pollen S gene, which determines male specificity in SI interactions. To identify the pollen S gene of Petunia inflata, we had previously used mRNA differential display and subtractive hybridization to identify 13 pollen-expressed genes that showed S -haplotype-specific RFLP. Here, we carried out recombination analysis of 1205 F2 plants to determine the genetic distance between each of these S -linked genes and S-RNase. Recombination was observed between four of the genes (3.16, G211, G212, and G221) and S-RNase, whereas no recombination was observed for the other nine genes (3.2, 3.15, A113, A134, A181, A301, G261, X9, and X11). A genetic map of the S locus was constructed, with 3.16 and G221 delimiting the outer limits. None of the observed crossovers disrupted SI, suggesting that all the genes required for SI are contained in the chromosomal region defined by 3.16 and G221. These results and our preliminary chromosome walking results suggest that the S locus is a huge multi-gene complex. Allelic sequence diversity of G221 and 3.16, as well as of 3.2, 3.15, A113, A134 and G261, was determined by comparing two or three alleles of their cDNA and/or genomic sequences. In contrast to S-RNase, all these genes showed very low degrees of allelic sequence diversity in the coding regions, introns, and flanking regions. 相似文献
998.
The zebrafish has proven to be an excellent model for analyzing issues of vertebrate development. In this review we ask whether the zebrafish is a viable model for analyzing the neurodevelopmental causes of autism. In developing an answer to this question three topics are considered. First, the general attributes of zebrafish as a model are discussed, including low cost maintenance, rapid life cycle and the multitude of techniques available. These techniques include large-scale genetic screens, targeted loss and gain of function methods, and embryological assays. Second, we consider the conservation of zebrafish and mammalian brain development, structure and function. Third, we discuss the impressive use of zebrafish as a model for human disease, and suggest several strategies by which zebrafish could be used to dissect the genetic basis for autism. We conclude that the zebrafish system could be used to make important contributions to understanding autistic disorders. 相似文献
999.
The relationship between probability of survival and the number of deleterious mutations in the genome is investigated using
three different models of highly redundant systems that interact with a threatening environment. Model one is a system that
counters a potentially lethal infection; it has multiple identical components that act in sequence and in parallel. Model
two has many different overlapping components that provide three-fold coverage of a large number of vital functions. The third
model is based on statistical decision theory: an ideal detector, following an optimum decision strategy, makes crucial decisions
in an uncertain world. The probability of a fatal error is reduced by a redundant sampling system, but the chance of error
rises as the system is impaired by deleterious mutations. In all three cases the survival profile shows a synergistic pattern
in that the probability of survival falls slowly and then more rapidly. This is different than the multiplicative or independent
survival profile that is often used in mathematical models. It is suggested that a synergistic profile is a property of redundant
systems.
Model one is then used to study the conservation of redundancy during sexual and asexual reproduction. A unicellular haploid
organism reproducing asexually retains redundancy when the mutation rate is very low (0001 per cell division), but tends to
lose high levels of redundancy if the mutation rate is increased (001 to 01 per cell division). If a similar unicellular haploid
organism has a sexual phase then redundancy is retained for mutation rates between 0001 and 01 per cell division. The sexual
organism outgrows the asexual organism when the above mutation rates apply. If they compete for finite resources the asexual
organism will be extinguished. Variants of the sexual organism with increased redundancy will outgrow those with lower levels
of redundancy and the sexual process facilitates the evolution of more complex forms. There is a limit to the extent that
complexity can be increased by increasing the size of the genome and in asexual organisms this leads to progressive accumulation
of mutations with loss of redundancy and eventual extinction. If complexity is increased by using genes in new combinations,
the asexual form can reach a stable equilibrium, although it is associated with some loss of redundancy. The sexual form,
by comparison, can survive, with retention of redundancy, even if the mutation rate is above one per generation.
The conservation and evolution of redundancy, which is essential for complexity, depends on the sexual process of reproduction. 相似文献
1000.
Genetic variation in caribou and reindeer (Rangifer tarandus) 总被引:2,自引:0,他引:2
Genetic variation at seven microsatellite DNA loci was quantified in 19 herds of wild caribou and domestic reindeer (Rangifer tarandus) from North America, Scandinavia and Russia. There is an average of 2.0-6.6 alleles per locus and observed individual heterozygosity of 0.33-0.50 in most herds. A herd on Svalbard Island, Scandinavia, is an exception, with relatively few alleles and low heterozygosity. The Central Arctic, Western Arctic and Porcupine River caribou herds in Alaska have similar allele frequencies and comprise one breeding population. Domestic reindeer in Alaska originated from transplants from Siberia, Russia, more than 100 years ago. Reindeer in Alaska and Siberia have different allele frequencies at several loci, but a relatively low level of genetic differentiation. Wild caribou and domestic reindeer in Alaska have significantly different allele frequencies at the seven loci, indicating that gene flow between reindeer and caribou in Alaska has been limited. 相似文献