Gene Conversion and Intragenic Recombination at at the SUP6 Locus and the Surrounding Region in SACCHAROMYCES CEREVISIAE

Spontaneous secondary mutations of the ochre suppressor SUP6 were selected in a haploid strain of Saccharomyces cerevisiae . Unselected tetrads were dissected from crosses heterozygous for one of three alleles of SUP6 and for three other loci in this region which span a length of 14 map units (his2, cdc14 and met10). The study showed that all of these markers were characterized by high frequency of meiotic gene conversion and long conversion lengths which frequently extended into adjacent marked loci. Despite the high conversion frequency of SUP6 , recombination between alleles of this locus reached a maximum frequency of only 2 x 10^-3 prototrophs/spore. Although the allelic recombination frequencies were not distance dependent and consequently could not be used to order the alleles, the inequality between the two recombinant outside marker combinations among selected intragenic recombinants produced an internally consistent map of the suppressor locus. Recombination at SUP6 (whether detected as conversion in tetrads or the production of recombinants among random spores) was accompanied by significantly less than 50% outside marker recombination.     

Gene Conversion Alone Accounts for More than 90% of Recombination Events at the Am Locus of Neurospora Crassa

We have used closely flanking molecular markers located ~4 kb distal and 6 kb proximal of the am locus to investigate the incidence of crossover events associated with the generation of prototrophic recombinants in a cross heteroallelic am(1) am(6). Ninety-three percent of prototrophs were generated by events that did not recombine the molecular markers, indicating that simple conversion accounts for the formation of most prototrophs and that associated crossovers are much less frequent (~0.07) than estimated previously using more distant flanking markers. This suggests that conversion and crossing over during meiosis may arise from distinct mechanisms or that if, as is widely supposed, conversion and crossing over result from alternate modes of resolution of Holliday junctions then, at least for the am locus of Neurospora, the mode of resolution is strongly biased in favor of retaining the parental association of flanking sequences. Because estimates of the association of conversion and crossing over based on more distant gene markers are similar for yeast and Neurospora (~0.35), our observation may have general significance.     

Analysis of a Gene Conversion Gradient at the His4 Locus in Saccharomyces Cerevisiae

Heteroduplexes formed between genes on homologous chromosomes are intermediates in meiotic recombination. In the HIS4 gene of Saccharomyces cerevisiae, most mutant alleles at the 5' end of the gene have a higher rate of meiotic recombination (gene conversion) than mutant alleles at the 3' end of the gene. Such gradients are usually interpreted as indicating a higher frequency of heteroduplex formation at the high conversion end of the gene. We present evidence indicating that the gradient of conversion at HIS4 primarily reflects the direction of mismatch repair rather than the frequency of heteroduplex formation. We also identify a site located between the 5' end of HIS4 and the 3' end of BIK1 that stimulates heteroduplex formation at HIS4 and BIK1.     

Decreasing Gradients of Gene Conversion on Both Sides of the Initiation Site for Meiotic Recombination at the Arg4 Locus in Yeast

We have constructed eight restriction site polymorphisms in the DED81-ARG4 region and examined their behavior during meiotic recombination. Tetrad analysis reveals decreasing gradients of gene conversion on both sides of the initiation site for meiotic recombination at the ARG4 locus, extending on one side into the ARG4 gene, and on the other side into the adjacent DED81 gene. Gene conversion events can extend in both directions from the initiation site as the result of a single meiotic event. There is a second gradient of gene conversion in DED81, with high levels near the 5' end of the gene and low levels near the middle of the gene. The peaks of gene conversion activity for the DED81 and ARG4 gradients map to regions where double-strand breaks are found during meiosis. The implications of these results for models of meiotic gene conversion are discussed.     

Analysis of a Recombination Hotspot for Gene Conversion Occurring at the His2 Gene of Saccharomyces Cerevisiae

The properties of gene conversion as measured in fungi that generate asci containing all the products of meiosis imply that meiotic recombination initiates at specific sites. The HIS2 gene of Saccharomyces cerevisiae displays a high frequency of gene conversion, indicating that it is a recombination hotspot. The HIS2 gene was cloned and sequenced, and the cloned DNA was used to make several different types of alterations in the yeast chromosome by transformation; these alterations were used to determine the location of the sequences necessary for the high levels of meiotic conversion observed at HIS2. Previous work indicated that the gene conversion polarity gradient is high at the 3' end of the gene, and that the promoter of the gene is not necessary for the high frequency of conversion observed. Data presented here suggest that at least some of the sequences necessary for high levels of conversion at HIS2 are located over 700 bp downstream of the end of the coding region, extend over (at least) several hundred base pairs, and may be quite complex, perhaps involving chromatin structure. Additional data indicate that multiple single base heterologies within a 1-kb interval contribute little to the frequency of gene conversion. This contrasts with other reports about the role of heterologies at the MAT locus.     

Genetic Recombination at the Buff Spore Color Locus in SORDARIA BREVICOLLIS. II. Analysis of Flanking Marker Behavior in Crosses between Buff Mutants

Aberrant asci containing one or more wild-type spores were selected from crosses between pairs of alleles of the buff locus in the presence of closely linked flanking markers. Data were obtained relating to the site of aberrant segregation and the position of any associated crossover giving recombination of flanking markers. Aberrant segregation at a proximal site within the buff gene may be associated with a crossover proximal to the site of aberrant segregation or, with equal frequency, with a crossover distal to the site of the second mutant present in the cross. Similarly, segregation at a distal site may be associated with a crossover distal to the site or, with lower frequency, with a crossover proximal to the site of the proximal mutant present in the cross. Crossovers between the alleles were rare. This evidence for the relationship between hybrid DNA and crossing over is discussed in terms of current models for the mechanism of recombination.     

Gene Conversion of the Mating-Type Locus in SACCHAROMYCES CEREVISIAE

Tetrad analysis of MATa/MAT alpha diploids of Saccharomyces cerevisiae generally yields 2 MATa:2MAT alpha meiotic products. About 1 to 1.8% of the tetrads yield aberrant segregations for this marker. Described here are experiments that determine whether the aberrant meiotic segregations at the mating-type locus are ascribable to gene conversions or to MAT switches, that is, to mating-type interconversions. Diploid strains incapable of switching MATa to MAT alpha, or the converse, nevertheless display changes of MATa to MAT alpha, or the reverse. These events must be attributed to gene conversion. Further, we suggest that MATa and MAT alpha alleles may represent nonhomologous sequences of DNA since they fail to display postmeiotic segregations.     

连续三步‘Gap-repair’构建小鼠WAP—人LF杂合基因座

为了构建一个利用小鼠乳清酸蛋白(mWAP)基因座完整的上下游调控序列指导人乳铁蛋白(hLF)基因组序列在乳腺特异性高效表达的mWAP-hLF杂合基因座,我们采用了连续三步‘Gap-repair'的方法.首先,以pBR322载体作为骨架,插入预先无痕连接在一起的6个同源臂,构成能连续进行三次gap-repair的基因抓捕载体.然后在大肠杆菌内利用Red同源重组系统介导的gap-repair技术,第一步从含mWAP基因座的细菌人工染色体(mWAP BAC)上亚克隆了8 kb的mWAP基因3'端完整侧翼序列到抓捕载体上;第二步,从hLF BAC上亚克隆29 kb的从起始密码子(ATG)到终止密码子(TAA)的hLF基因组序列;第三步,从mWAP BAC上亚克隆12 kb的mWAP基因5'端完整侧翼序列,并使这3个基因片段在抓捕载体上自动无痕地连接在一起,形成一个全长约49 kb的mWAP.hLF杂合基因座.经过PCR扩增、限制性内切酶消化和序列测定验证,我们构建的这个杂合基因座,达到了原来mWAP基因座中mWAP基因组编码序列从起始密码子到终止密码子被hLF基因组序列精确置换的目的.这种连续三步gap-repair构建杂合基因座乳腺表达载体的技术,将为乳腺生物反应器高效表达大载体的制备提供一种全新的思路和方法.     

连续3次缺口修复构建小鼠乳清酸蛋白-人血清白蛋白杂合基因座

目的:构建人血清白蛋白(hSA)与小鼠乳清酸蛋白(mWAP)调控序列的杂合基因座。方法与结果:在pBR322载体上连入预先无痕连接的3对同源臂,利用基于Red同源重组系统的缺口修复(gap-repair)技术,分别对8kb的mWAP基因座3′调控区、16 kb的hSA基因组编码序列及13 kb的mWAP基因座5′调控区进行连续3次基因抓捕,最终将全长37 kb的乳蛋白杂合基因座构入pBR322载体;通过PCR扩增、限制性内切酶消化和序列测定验证,确定mWAP基因座中的编码序列被精确地置换为hSA的基因组编码序列。结论:构建了整合有mWAP-hSA杂合基因座的pBR322载体,为研究杂合基因座在乳腺中的表达效果及置换型基因座表达的可行性提供了数据。     

连续3步缺口修复构建小鼠乳清酸蛋白-人溶菌酶杂合基因座

目的:构建一个利用小鼠乳清酸蛋白(mWAP)基因座完整的上下游调控序列指导人溶菌酶(hLYZ)基因组序列在乳腺内特异性高效表达的mWAP-hLYZ杂合基因座,实现人溶菌酶的高效表达。方法:采用连续3步缺口修复的方法。首先,以pBR322载体作为骨架,插入预先合成的6个同源臂序列,构成能够连续进行3次缺口修复的基因抓捕载体。然后在大肠杆菌内利用λ噬菌体Red同源重组系统介导的同源重组方法:第一步,从含mWAP基因座的细菌人工染色体(BAC)上亚克隆8 kb的mWAP基因3’端完整侧翼序列到抓捕载体上;第二步,从含hLYZ基因的BAC上亚克隆5 kb的从起始密码子(ATG)到终止密码子(TAA)的hLYZ基因组序列;第三步,从mWAP BAC上亚克隆9kb的mWAP基因5’端完整侧翼序列,并使上述3个片段在抓捕载体上自动无痕地连接在一起。结果:构建了全长约22 kb的mWAP-hLYZ杂合基因座,经PCR扩增、限制性内切酶酶切和序列测定验证,构建的杂合基因座达到原mWAP基因座中mWAP基因组编码序列从起始密码子(ATG)到终止密码子(TAA)完全被hLYZ基因组序列精确置换的目的。结论:通过连续3步缺口修复构建杂合mWAP-hLYZ基因座乳腺表达载体,为乳腺生物反应器高效表达人溶菌酶提供了可行的思路和方法。     

Gene Frequency Changes at the alpha-Amylase Locus in Experimental Populations of DROSOPHILA PSEUDOOBSCURA

The frequencies of alleles at the α-Amylase locus of D. pseudoobscura were followed in both large and small experimental populations. No evidence for balancing or directional selection was found, although our ability to detect weak selection is limited. The gene frequency changes in our experimental populations were consistent with the hypothesis of selective neutrality and genetic drift due to sampling error.     

Long-Tract Mitotic Gene Conversion in Yeast: Evidence for a Triparental Contribution during Spontaneous Recombination

In Saccharomyces cerevisiae, spontaneous mitotic gene conversion at one site is statistically correlated with recombination at other loci. In general, coincident conversion frequencies are highest for tightly linked markers and decline as a function of intermarker distance. Paradoxically, a significant fraction of mitotic gene convertants exhibits concomitant nonreciprocal segregation for multiple and widely spaced markers. We have undertaken a detailed genetic analysis of this class of mitotic recombinants. Our results indicate that mitotic gene conversion in yeast is frequently associated with nonreciprocal segregation of markers centromere-distal to the selected site of conversion. In addition, distal markers are often found to be mosaic within the product colonies. These observations, and others described here, suggest that a percentage of gene conversion in vegetative yeast cells is coupled to a chromosome break and repair mechanism. This hypothesis was further tested using a strain trisomic for chromosome VII which was specially marked to detect homolog-dependent repair events. An association between mitotic gene conversion events and the production of broken chromosomes which are repaired by a homologous-pairing-copy mechanism was supported.     

Recombination Dynamics of a Human Y-Chromosomal Palindrome: Rapid GC-Biased Gene Conversion,Multi-kilobase Conversion Tracts,and Rare Inversions

The male-specific region of the human Y chromosome (MSY) includes eight large inverted repeats (palindromes) in which arm-to-arm similarity exceeds 99.9%, due to gene conversion activity. Here, we studied one of these palindromes, P6, in order to illuminate the dynamics of the gene conversion process. We genotyped ten paralogous sequence variants (PSVs) within the arms of P6 in 378 Y chromosomes whose evolutionary relationships within the SNP-defined Y phylogeny are known. This allowed the identification of 146 historical gene conversion events involving individual PSVs, occurring at a rate of 2.9–8.4×10⁻⁴ events per generation. A consideration of the nature of nucleotide change and the ancestral state of each PSV showed that the conversion process was significantly biased towards the fixation of G or C nucleotides (GC-biased), and also towards the ancestral state. Determination of haplotypes by long-PCR allowed likely co-conversion of PSVs to be identified, and suggested that conversion tract lengths are large, with a mean of 2068 bp, and a maximum in excess of 9 kb. Despite the frequent formation of recombination intermediates implied by the rapid observed gene conversion activity, resolution via crossover is rare: only three inversions within P6 were detected in the sample. An analysis of chimpanzee and gorilla P6 orthologs showed that the ancestral state bias has existed in all three species, and comparison of human and chimpanzee sequences with the gorilla outgroup confirmed that GC bias of the conversion process has apparently been active in both the human and chimpanzee lineages.