共查询到20条相似文献,搜索用时 15 毫秒
1.
R. J. Schweyen B. Weiss-Brummer B. Backhaus F. Kaudewitz 《Molecular & general genetics : MGG》1978,159(2):151-160
Summary An approach for the screening of mit
- mutants, the isolation and preliminary classification of a series of such mutants is reported. Loss and retention of 8 mit
- and 6 drug
r markers in mitDNA was analyzed in populations of rho- clones derived from four yeast strains. The populations studied constitute a representative fraction of the rho- petites formed during growth at 35° C under the influence of mutation tsp-25 which is in common to the four strains. The majority of the rho- clones retained several of the markers studied. Depending on the marker regarded retention frequencies between 15% (oxi3) and 45% (oli1, cob) were observed. Loss of one and retention of the other of a pair of markers was determined in all rho- clones of the four populations. The frequencies of marker separation by rho- deletion thus obtained are assumed to reflect the distance between markers on the mitochondrial genome: the higher the frequency of separation the longer the distance between two markers. Based on these frequencies a unique order of markers on a circular map was determined. Positions of markers on a scale from 0 to 100 were found to be: cap/ery (0) — olil (16) — cob1-1354 (21) — ana101 (22) — cob2-1625 (24) — oli2 (35) — pho1 (40) — oxi3-2501 (44) — oxi3-3771 (47) — par (65) — oxi2 (79) — oxil (87) tms8 (93) —cap (100). The relevance of this map as to the faithful representation of the topology of gene loci on mitDNA is discussed. Correlation of retention frequencies of markers to their map positions reveals a pronounced polarity: mitDNA segments carrying the cob-oli1 segment prevail whereas segments retaining oxi3 are the least frequent. 相似文献
2.
F Ye F Laigret J C Whitley C Citti L R Finch P Carle J Renaudin J M Bov 《Nucleic acids research》1992,20(7):1559-1565
A physical and genetic map of the Spiroplasma citri genome has been constructed using several restriction enzymes and pulsed field gel electrophoresis. A number of genes were subsequently localized on the map by the use of appropriate probes. The genome size of the spiroplasma estimated from restriction fragments is close to 1780 kbp, the largest of all Mollicutes studied so far. It contains multisite insertions of Spiroplasma virus 1 (SpV1) sequences. The physical and genetic map of the S. citri genome shares several features with that of other Mollicutes, especially those in the Mycoplasma mycoides cluster. This supports the finding that S. citri and these Mycoplasma spp. are phylogenetically related. 相似文献
3.
4.
Correlated physical and genetic map of the Bradyrhizobium japonicum 110 genome. 总被引:6,自引:8,他引:6 下载免费PDF全文
We describe a compilation of 79 known genes of Bradyrhizobium japonicum 110, 63 of which were placed on a correlated physical and genetic map of the chromosome. Genomic DNA was restricted with enzymes PacI, PmeI, and SwaI, which yielded two, five, and nine fragments, respectively. Linkage of some of the fragments was established by performing Southern blot hybridization experiments. For probes we used isolated, labelled fragments that were produced either by PmeI or by SwaI. Genes were mapped on individual restriction fragments by performing gene-directed mutagenesis. The principle of this method was to introduce recognition sites for all three restriction enzymes mentioned above into or very near the desired gene loci. Pulsed-field gel electrophoresis of restricted mutant DNA then resulted in an altered fragment pattern compared with wild-type DNA. This allowed us to identify overlapping fragments and to determine the exact position of any selected gene locus. The technique was limited only by the accuracy of the fragment size estimates. After linkage of all of the restriction fragments we concluded that the B. japonicum genome consists of a single, circular chromosome that is approximately 8,700 kb long. Genes directly concerned with nodulation and symbiotic nitrogen fixation are clustered in a chromosomal section that is about 380 kb long. 相似文献
5.
Chen M Presting G Barbazuk WB Goicoechea JL Blackmon B Fang G Kim H Frisch D Yu Y Sun S Higingbottom S Phimphilai J Phimphilai D Thurmond S Gaudette B Li P Liu J Hatfield J Main D Farrar K Henderson C Barnett L Costa R Williams B Walser S Atkins M Hall C Budiman MA Tomkins JP Luo M Bancroft I Salse J Regad F Mohapatra T Singh NK Tyagi AK Soderlund C Dean RA Wing RA 《The Plant cell》2002,14(3):537-545
Rice was chosen as a model organism for genome sequencing because of its economic importance, small genome size, and syntenic relationship with other cereal species. We have constructed a bacterial artificial chromosome fingerprint–based physical map of the rice genome to facilitate the whole-genome sequencing of rice. Most of the rice genome (~90.6%) was anchored genetically by overgo hybridization, DNA gel blot hybridization, and in silico anchoring. Genome sequencing data also were integrated into the rice physical map. Comparison of the genetic and physical maps reveals that recombination is suppressed severely in centromeric regions as well as on the short arms of chromosomes 4 and 10. This integrated high-resolution physical map of the rice genome will greatly facilitate whole-genome sequencing by helping to identify a minimum tiling path of clones to sequence. Furthermore, the physical map will aid map-based cloning of agronomically important genes and will provide an important tool for the comparative analysis of grass genomes. 相似文献
6.
B W Goodner B P Markelz M C Flanagan C B Crowell J L Racette B A Schilling L M Halfon J S Mellors G Grabowski 《Journal of bacteriology》1999,181(17):5160-5166
A combined genetic and physical map of the Agrobacterium tumefaciens A348 (derivative of C58) genome was constructed to address the discrepancy between initial single-chromosome genetic maps and more recent physical mapping data supporting the presence of two nonhomologous chromosomes. The combined map confirms the two-chromosome genomic structure and the correspondence of the initial genetic maps to the circular chromosome. The linear chromosome is almost devoid of auxotrophic markers, which probably explains why it was missed by genetic mapping studies. 相似文献
7.
Expansions and contractions of the genetic map relative to the physical map of yeast chromosome III. 总被引:29,自引:7,他引:29 下载免费PDF全文
To examine the relationship between genetic and physical chromosome maps, we constructed a diploid strain of the yeast Saccharomyces cerevisiae heterozygous for 12 restriction site mutations within a 23-kilobase (5-centimorgan) interval of chromosome III. Crossovers were not uniformly distributed along the chromosome, one interval containing significantly more and one interval significantly fewer crossovers than expected. One-third of these crossovers occurred within 6 kilobases of the centromere. Approximately half of the exchanges were associated with gene conversion events. The minimum length of gene conversion tracts varied from 4 base pairs to more than 12 kilobases, and these tracts were nonuniformly distributed along the chromosome. We conclude that the chromosomal sequence or structure has a dramatic effect on meiotic recombination. 相似文献
8.
A macrorestriction map of the genome of Mycoplasma hyopneumoniae strain J, the type strain of the causative agent of enzootic pneumonia in pigs, was constructed using pulsed-field gel electrophoresis (PFGE) and DNA hybridization. The size of the genome as determined by PFGE was approximately 1070 kb. Assembly of the M. hyopneumoniae genomic map was facilitated and complimented by the simultaneous construction of an ordered cosmid library. Five contigs of overlapping cosmids were assembled, which together represent coverage of approximately 728 kb. Forty-two genetic markers (including three types of repeated elements) were placed on the M. hyopneumoniae map. Closer examination of an ApaI restriction fragment contained entirely within a single cosmid insert suggests that the genome size may be overestimated by PFGE. 相似文献
9.
Kelleher CT Chiu R Shin H Bosdet IE Krzywinski MI Fjell CD Wilkin J Yin T DiFazio SP Ali J Asano JK Chan S Cloutier A Girn N Leach S Lee D Mathewson CA Olson T O'connor K Prabhu AL Smailus DE Stott JM Tsai M Wye NH Yang GS Zhuang J Holt RA Putnam NH Vrebalov J Giovannoni JJ Grimwood J Schmutz J Rokhsar D Jones SJ Marra MA Tuskan GA Bohlmann J Ellis BE Ritland K Douglas CJ Schein JE 《The Plant journal : for cell and molecular biology》2007,50(6):1063-1078
As part of a larger project to sequence the Populus genome and generate genomic resources for this emerging model tree, we constructed a physical map of the Populus genome, representing one of the few such maps of an undomesticated, highly heterozygous plant species. The physical map, consisting of 2802 contigs, was constructed from fingerprinted bacterial artificial chromosome (BAC) clones. The map represents approximately 9.4-fold coverage of the Populus genome, which has been estimated from the genome sequence assembly to be 485 ± 10 Mb in size. BAC ends were sequenced to assist long-range assembly of whole-genome shotgun sequence scaffolds and to anchor the physical map to the genome sequence. Simple sequence repeat-based markers were derived from the end sequences and used to initiate integration of the BAC and genetic maps. A total of 2411 physical map contigs, representing 97% of all clones assigned to contigs, were aligned to the sequence assembly (JGI Populus trichocarpa , version 1.0). These alignments represent a total coverage of 384 Mb (79%) of the entire poplar sequence assembly and 295 Mb (96%) of linkage group sequence assemblies. A striking result of the physical map contig alignments to the sequence assembly was the co-localization of multiple contigs across numerous regions of the 19 linkage groups. Targeted sequencing of BAC clones and genetic analysis in a small number of representative regions showed that these co-aligning contigs represent distinct haplotypes in the heterozygous individual sequenced, and revealed the nature of these haplotype sequence differences. 相似文献
10.
The mitochondrial genome of yeast. 总被引:51,自引:0,他引:51
11.
12.
The completion of the DNA sequence of the budding yeast Saccharomyces cerevisiae resulted in the identification of a large number of genes. However, the function of most of these genes is not known. One of the best ways to determine gene function is to carry out mutational and phenotypic analysis. In recent years, several approaches have been developed for the mutational analysis of yeast genes on a large scale. These include transposon-based insertional mutagenesis, and systematic deletions using PCR-based approaches. These projects have produced collections of yeast strains and plasmid alleles that can be screened using novel approaches. Analysis of these collections by the scientific community promises to reveal a great deal of biological information about this organism. 相似文献
13.
An improved physical and genetic map of the genome of alkaliphilic Bacillus sp. C-125 总被引:2,自引:0,他引:2
Takami H Nakasone K Hirama C Takaki Y Masui N Fuji F Nakamura Y Inoue A 《Extremophiles : life under extreme conditions》1999,3(1):21-28
Among alkaliphilic bacteria reported so far, Bacillus sp. C-125 is the strain most thoroughly characterized physiologically, biochemically, and genetically. A physical map of
the chromosome of this strain was constructed to facilitate further genome analysis, and the genome size was revised from
3.7 to 4.25 Mb. Complete digestion of the chromosomal DNA with two rare cut restriction endonucleases, AscI and Sse8387I, each yielded 20 fragments ranging in size from 20 to 600 kb. Seventeen linking clones were isolated in each instance
to join the adjacent AscI or Sse8387I fragments in the chromosomal map. All AscI linking clones isolated were sequenced and analyzed by comparison with the BSORF database to map the genes in the chromosome
of strain C-125. Several ORFs showing significant similarities to those of B. subtilis in the AscI linking clones were positioned on the physical map. The oriC region of the C-125 chromosome was identified by southern blot analysis with a DNA probe containing the gyrB region.
Received: May 6, 1998 / Accepted: May 26, 1998 相似文献
14.
N Fischel-Ghodsian 《American journal of human genetics》1998,62(1):15-19
15.
The physical map and organisation of the mitochondrial genome from the fertile cytoplasm of maize 总被引:31,自引:12,他引:19 下载免费PDF全文
The size of the mitochondrial genome from the fertile cytoplasm of maize has been determined by restriction mapping to be 570 kb. The entire sequence complexity of the genome can be represented on a single circular DNA species (the 'master circle'). The presence of reiterated sequences, active in recombination, results in a complex multipartite organisation. 相似文献
16.
S G Oliver 《Journal of theoretical biology》1977,67(2):195-201
A mechanism is proposed to explain how a mutation in a single molecule of mitochondrial DNA (mitDNA) can come to affect all the other mitDNA molecules of a yeast cell. It is suggested that an initial mutation may be “amplified” by a process which is, in fact, intended to ensure the identity of the cell's complement of mitDNA molecules. It is postulated that this process involves a small number of “reference” copies of mitDNA to which all other (“derived”) copies are compared and corrected once per cell cycle. Asymmetric gene conversion is proposed as the correction mechanism and the means of “amplifying” mutations. The model is shown to be compatible with current data on spontaneous and induced mitochondrial mutation in Saccharomyces cerevisiae. 相似文献
17.
Small deletion variants ([rho-] mutants) derived from the wild-type ([ rho+]) Saccharomyces cerevisiae mitochondrial genome were isolated and characterized. The mutant mitochondrial DNAs (mtDNAs) examined retained as little as 35 base pairs of one section of intergenic DNA, were composed entirely of A.T base pairs, and were stably maintained. These simple mtDNAs existed in tandemly repeated arrays at an amplified level that made up approximately 15% of the total cellular DNA and, as judged by fluorescence microscopy, had a nearly normal mitochondrial arrangement throughout the cell cytoplasm. The simple nature of these [rho-] genomes indicates that the sequences required to maintain mtDNA must be extremely simple. 相似文献
18.
Although maternal or uniparental inheritance of mitochondrial genomes is a general rule, biparental inheritance is sometimes
observed in protists and fungi, including yeasts. In yeast, recombination occurs between the mitochondrial genomes inherited
from both parents. Mitochondrial fusion observed in yeast zygotes is thought to set up a space for DNA recombination. In the
last decade, a universal mitochondrial fusion mechanism has been uncovered, using yeast as a model. On the other hand, an
alternative mitochondrial fusion mechanism has been identified in the true slime mold Physarum polycephalum. A specific mitochondrial plasmid, mF, has been detected as the genetic material that causes mitochondrial fusion in P. polycephalum. Without mF, fusion of the mitochondria is not observed throughout the life cycle, suggesting that Physarum has no constitutive mitochondrial fusion mechanism. Conversely, mitochondria fuse in zygotes and during sporulation with
mF. The complete mF sequence suggests that one gene, ORF640, encodes a fusogen for Physarum mitochondria. Although in general, mitochondria are inherited uniparentally, biparental inheritance occurs with specific
sexual crossing in P. polycephalum. An analysis of the transmission of mitochondrial genomes has shown that recombinations between two parental mitochondrial
genomes require mitochondrial fusion, mediated by mF. Physarum is a unique organism for studying mitochondrial fusion. 相似文献
19.
20.
Seven early mutants, three late mutants, and one plaque morphology mutant of polyoma have been mapped by marker rescue using wild-type restriction endonuclease fragments. The early mutants map between 1.0 and 26.4 units from the Eco RI site, a region previously shown to correspond to the 3'-OH termainal half of "early" RNA (Kamen et al., 1974). The late mutants as well as the plaque morphology mutant map between 26.6 and 45.4 map units, a region previously shown to correspond to the 3'-OH terminal half of "late" RNA (Kamen et al., 1974). Analysis of the genotype of rescued virus demonstrated that the modification of the mutant DNA during marker rescue was limited to the region of the genome covered by the wild-type restriction endonuclease fragment tested. 相似文献