Mechanism of acquisition of chromosomal markers by plasmids in Haemophilus influenzae.

The hybrid plasmid pNov1 readily acquired genetic information from the chromosome of wild-type, but not rec-2, cells. Most of the recombination had taken place 1 h after entrance of the plasmid into the cell, as judged by transformation of rec-2 by lysates made from wild-type cells exposed to pNov1. Measurement of physical transfer from radioactively labeled cellular DNA to plasmids recombining in wild-type cells failed, since there was little more radioactivity in plasmids from such cells than from labeled rec-2 recipients, in which no recombination took place. EcoRI digestion of pNov1 divided the DNA into a 1.7-kilobase-pair fragment containing the novobiocin resistance marker and a 13-kilobase-pair fragment containing all of the original vector and considerable portions homologous to the chromosome. Transformation by the large fragment alone resulted in a plasmid the size of the original pNov1. Our hypothesis to explain the data is that genetic transfer from chromosome to plasmid took place by a copy choice mechanism.     

Transformation of Haemophilus influenzae by plasmid RSF0885 containing a cloned segment of chromosomal deoxyribonucleic acid.

A plasmid containing a single cloned insertion of Haemophilus influenzae chromosomal deoxyribonucleic acid that carried a novobiocin resistance marker was 2.6 times larger than the parent plasmid, RSF0885, which conferred ampicillin resistance. The most frequent type of transformation by this plasmid (designated pNov1) was the transfer of novobiocin resistance to the chromosome, with the loss of the plasmid from the recipient. In accord with this observation, after radioactively labeled pNov1 entered a competent cell, it lost acid-insoluble counts, as well as biological activity. The level of ampicillin transformation, which involved establishment of the plasmid, was almost two orders of magnitude lower than the level of novobiocin transformation. Both types of transformation were depressed profoundly in rec-1 and rec-2 mutants. Ampicillin transformants of wild-type cells always contained plasmids that were the same size as pNov1, although most of these transformants were not novobiocin resistant. Plasmid pNov1 in wild-type cells but not in rec-1 or rec-2 cells often recombined with the chromosome, causing a homologous region of the chromosome to be substituted for part of the plasmid, as shown by restriction and genetic analyses. Our data suggested that plasmid-chromosome recombination took place only around the time when the plasmid entered a cell, rather than after it became established.     

A mutation of Streptomyces lividans which prevents intraplasmid recombination has no effect on chromosomal recombination

Summary A mutation (rec-46) of Streptomyces lividans, previously shown to prevent (or greatly diminish) homologous and illegitimate intraplasmid recombination, was shown to have no effect on generalised chromosomal recombination occurring in matings or in protoplast fusions, nor to affect homologous recombination between a recombinant plasmid and the host chromosome. By comparison with Escherichia coli mutants defective in various aspects of recombination, the rec-46 mutation is similar to those in recF, recJ, recO and topA.     

Differential behavior of plasmids containing chromosomal DNA insertions of various sizes during transformation and conjugation in Haemophilus influenzae.

Plasmids with chromosomal insertions were constructed by removal of a 1.1-kilobase-pair piece from the 9.8-kilobase-pair vector plasmid pDM2 by EcoRI digestion and inserting in its place various lengths of chromosomal DNA (1.7, 3.4, and 9.0 kilobase pairs) coding for resistance to novobiocin. A fourth plasmid was constructed by insertion of the largest piece of chromosomal DNA into the SmaI site of pDM2. The plasmids without inserts were taken up poorly by competent cells and thus were considered not to contain specific DNA uptake sites. The presence of even the smallest insert of chromosomal DNA caused a large increase in transformation of Rec+ and Rec- strains. The frequency of plasmid establishment in Rec+ cells by transformation increased exponentially with increasing insert size, but in Rec- cells there was less transformation by the larger plasmids. Conjugal transfer of these plasmids was carried out with the 35-kilobase-pair mobilizing plasmid pHD147. The frequency of establishment of plasmids by this method not only was not markedly affected by the presence of the insertions, but also decreased somewhat with increase in insert size and was independent of rec-1 and rec-2 genes. Recombination between plasmid and chromosome was readily detected after transformation, but could not be detected after transconjugation even when the recipient cells were Rec+ and made competent. These data suggested that there is a special processing of plasmid DNA that enters the competent cells in transformation that makes possible recombination of homologous regions of the plasmid with the chromosome and pairing with the chromosome that aids plasmid establishment.     

Time of Recombination in the DROSOPHILA MELANOGASTER Oocyte. III. Selection and Characterization of Temperature-Sensitive and -Insensitive, Recombination-Deficient Alleles in Drosophila

The procedure for the selection of a temperature-sensitive recombination mutant in Drosophila is described. Use of this procedure has led to the recovery of three alleles at a new recombination locus called rec-1, located within the region of chromosome 3 circumscribed by Deficiency (3R)sbd¹⁰⁵. One allele, rec-1²⁶, is temperature sensitive, and the other two alleles, rec-1⁶ and rec-1¹⁶, are temperature insensitive. Gene dosage studies reveal rec-1²⁶ to be a leaky mutant with greater recombination activity in two doses than in one. The other two alleles show no dose response, implying that they may be null mutants. The temperature response curves of rec-1²⁶ as a homozygote and in heteroallelic combination with rec-1¹⁶ suggest that the sharp decrease in recombination between 28° and 31° indicates temperature denaturation of an enzyme or other protein specified by the mutant and associated with the recombination process. The ability of small changes in temperature to reverse or abolish polarity in recombination along the X chromosome arm in rec-1 ²⁶/rec-1¹⁶ females brings into question the use of the "polarity" criterion to partition mutants into two functional types, i.e., precondition mutants that display polarity and exchange mutants that do not. Evidence that rec-1 may be part of a complex locus residing in a chromosome segment harboring a variety of recombination-related genes is presented.     

cosmid克隆筛选的体内同源重组法——一个含有小鼠t复合体连锁DNA顺序的cosmid克隆的分离

一个从cosmid分子克隆库中筛选特别基因顺序的遗传学方法——体内同源重组(invlvo homologous recombination)法。即使探针DNA与分子克隆库中带有与探针同源顺序的克隆发生体内重组,然后以遗传学方法进行筛选。cosmid分子克隆库构建在rec宿主细胞内,经体内包装(in vivo Packaging)成λ噬菌体颗粒,把该噬菌体颗粒转入带有探针DNA的rec~+细胞内,探针是已被克隆在与cosmid载体没有同源顺序的质粒(如PUC8或PUC9)内的。经过一段时间(1—3小时),待重组发生后,把cosmid进行体内包装。此时探针DNA连同质粒已整合入cosmid基因组内,因此它带有原为两个载体所分别带有的双重抗性——Amp~r(氨苄青霉素,PUC8或PUC9)和Kan~r(卡那霉素,cosmid)。这种双重抗性菌落可在含有这2种抗菌素的培养平皿上选出,该重组cosmid借助于λ切除酶的作用将已被整合的探针质粒重新切除,再经体内包装后,该cosmid被还原并纯化,然后可用一含有Xgal的培皿识别和选出。本文用此法以有关DNA探针从cosmid分子克隆库中分离得到含有与小鼠t复合体连锁的基因组顺序的克隆,并对该克隆作了物理图谱分析。     

rpe, a cis-acting element from the strA region of the Haemophilus influenzae chromosome that makes plasmid establishment independent of recombination.

Plasmids that share homology with the Haemophilus influenzae chromosome transform wild-type cells more efficiently than they transform recombination-defective mutants. A 5.2-kilobase-pair chromosomal fragment containing the strA gene of H. influenzae was found to promote efficient plasmid establishment in recombination-defective mutants. A cis-acting element in the insert, called rpe for rec-less plasmid establishment, promoted plasmid transformation in rec-1 and rec-2 mutants without suppressing the recombination defects of these strains. The rpe locus increased plasmid transformation in wild-type cells without interfering with the pathway of plasmid establishment that is dependent on recombination functions.     

dif, a recA-independent recombination site in the terminus region of the chromosome of Escherichia coli.

dif (deletion induced filamentation) is a newly identified locus that lies within the terminus region of the Escherichia coli chromosome. The Dif phenotype was characterized by a subpopulation of filamentous cells with abnormal nucleoids and induction of the SOS repair system. Interactions between dif-carrying plasmids as well as between such plasmids and the bacterial chromosome demonstrated that dif is a cis-acting, recA-independent recombination site. Filamentation continued in dif mutants in which SOS-associated division inhibitors were inoperative, which showed that induction of these inhibitors was not the primary cause of filamentation. Filamentation was not observed in dif recA or dif recBC mutants, which were unable to carry out homologous recombination. The dif site shows homology with the cer site of plasmid ColE1, which resolves plasmid multimers to monomers. It is proposed that dif functions to resolve dimeric chromosomes produced by sister chromatid exchange, and that the Dif phenotype is due to the inability of these mutants to resolve multimers prior to cell division.     

recE4-Independent recombination between homologous deoxyribonucleic acid segments of Bacillus subtilis plasmids.

A plasmid (pLS104) carrying a tandem repetition of the leu region of the Bacillus subtilis chromosome arose spontaneously from pLS103, which carried a single copy of the leu region. Plasmid preparations from strains harboring pLS104 also contained the original plasmid, pLS103, and, in some preparations, plasmids carrying three or four repetitions of the leu region. These plasmids were shown to be generated by recombination between homologous deoxyribonucleic acid (DNA) segments in the tandemly repeated DNA regions on the plasmids, but not by recombinations between specific DNA sites. These phenomena were observed in a recE4-Independent background, showing that recombination of the homologous DNA sequences does not require the recE-Independent gene product(s).     

Differing requirements for RAD51 and DMC1 in meiotic pairing of centromeres and chromosome arms in Arabidopsis thaliana

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.     

基于同源双交换的聚球藻PCC 7942基因组大片段无标记删除

在蓝藻合成生物学中,对大片段进行无标记删除可以加快基因组简化的进程.研究以聚球藻PCC 7942为材料,基于同源重组技术对基因组中大于10 kb的3个非必需区域进行无标记删除.构建带有两侧同源片段的不可在聚球藻复制的质粒,利用接合转移将其导入藻细胞获得同源单交换株,再借助于条件致死基因sacB筛选第二步交换的克隆,获得...     

Properties of Haemophilus influenzae mutants that are slightly recombination deficient and carry a mutation in the rec-1 gene region.

The highly recombination-deficient rec-1 mutants of Haemophilus influenzae are, as far as tested, equivalent to recA mutants of Escherichia coli. By selection for mutations in the rec-1 gene of H. influenzae, mutants designated ird (intermediary recombination-deficient) mutants were isolated; these mutants were much less recombination deficient (degree of transformability, 0.2 to 30% of wild-type value) than previously isolated rec-1 mutants (degree of transformability, 0.0001% of wild-type value). The ird mutants were more sensitive to ultraviolet irradiation and mytomycin C treatment than the wild type, but less sensitive than rec-1 mutants. Spontaneous production of phage HP1c1 by lysogenic MC11 cells and prophage induction by mitomycin C or ultraviolet irradiation were the same as in the wild type. In the ird mutants endogenous deoxyribonucleic acid was degraded both spontaneously and after ultraviolet irradiation to the same extent as in the wild type. Examination of one of the ird mutants revealed that recombination could be enhanced by ultraviolet irradiation, possibly because of an increased synthesis of the rec-1 gene product induced by ultraviolet irradiation.     

Positive and negative roles of homologous recombination in the maintenance of genome stability in Saccharomyces cerevisiae

In previous studies of the loss of heterozygosity (LOH), we analyzed a hemizygous URA3 marker on chromosome III in S. cerevisiae and showed that homologous recombination is involved in processes that lead to LOH in multiple ways, including allelic recombination, chromosome size alterations, and chromosome loss. To investigate the role of homologous recombination more precisely, we examined LOH events in rad50 Delta, rad51 Delta, rad52 Delta, rad50 Delta rad52 Delta, and rad51 Delta rad52 Delta mutants. As compared to Rad(+) cells, the frequency of LOH was significantly increased in all mutants, and most events were chromosome loss. Other LOH events were differentially affected in each mutant: the frequencies of all types of recombination were decreased in rad52 mutants and enhanced in rad50 mutants. The rad51 mutation increased the frequency of ectopic but not allelic recombination. Both the rad52 and rad51 mutations increased the frequency of intragenic point mutations approximately 25-fold, suggesting that alternative mutagenic pathways partially substitute for homologous recombination. Overall, these results indicate that all of the genes are required for chromosome maintenance and that they most likely function in homologous recombination between sister chromatids. In contrast, other recombination pathways can occur at a substantial level even in the absence of one of the genes and contribute to generating various chromosome rearrangements.     

Occurrence in wild strains of Neurospora crassa of genes controlling genetic recombination.

Each of the main laboratory wild stocks of N. crassa carries one of two alleles at the rec-1 and rec-2 loci and one of three at the rec-3 locus. The constitutions of the stocks are given in Fig. 1. Some of those conserved are evidently not the originals. The third rec-3 gene (rec-3L), found in Lindegren A, controls recombination at the am-1 locus to a level between that of rec-3+ and rec-3, the relative levels being 1 : 8 : 25. At the his-2 locus rec-3L is indistinguishable from rec-3+ in its level of control. This proves that there are minor differences between the control (con) genes, near to am-1 and his-2, which recognize products of rec-3 genes. Further, this is the first clear evidence, though indirect, that the binding sites for products of rec genes are situated in the chromosome regions where recombination is modulated.     

Recombination-deficient mutants of Bacillus subtilis.

Two mutant strains of Bacillus subtilis Marburg, NIG43 and NIG45, were isolated. They showed high sensitivities to gamma rays, ultraviolet light (UV), and chemicals. Deficiencies in genetic recombination of these two mutants were shown by the experiments on their capacity in transformation. SPO2 transfection, and PBS1 phage transduction, as well as on their radiation and drug sensitivities and their Hcr+ capacity for UV-exposed phage M2. Some of these characteristics were compared with those of the known strains possessing the recA1 or recB2 alleles. Mapping studies revealed that the mutation rec-43 of strain NIG43 lies in the region of chromosome replication origin. The order was purA dna-8132 rec-43. Another mutation, rec-45, of strain NIG45 was found to be tightly linked to recA1. The mutation rec-43 reduced mainly the frequency of PBS1 transduction. On the other hand, the mutation rec-45 reduced the frequency of recombination involved both in transformation and PBS1 transduction. The mutation rec-43 of strain NIG43 is conditional, but rec-45 of strain NIG45 is not. The UV impairment in cellular survival of strain NIG43 was gradually reverted at higher salt or sucrose concentrations, suggesting cellular possession of a mutated gene produce whose function is conditional. In contrast to several other recombination-deficient strains, SPO2 lysogens of strain NIG43 and NIG45 were not inducible, indicating involvement of rec-43+ or rec-45+ gene product in the development of SPO2 prophage to a vegetative form. The UV-induced deoxyribonucleic acid degradation in vegetative cells was higher in rec-43 and rec-45 strains.     

Interplasmid illegitimate recombination in Bacillus subtilis cells

The illegitimate recombination between S. aureus plasmids pE194 (or pGG20-the hybrid between pE194 and E. coli plasmid pBR322) and pBD17 (plasmid pUB110 without Hpa-II-C-fragment) in B. subtilis was studied. Plasmid cointegrates were generated with the frequency of 1-3.10(-8). Among the 22 hybrids analysed 9 types of recombinants were found. Nucleotide sequences of all the parental plasmids were involved in intermolecular recombination. Nucleotide sequencing of recombinant DNA junctions has revealed that in 8 cases recombination occurred between short homologous regions (9-15 b.p.). One of the recombinants resulted from nonhomologous recombination. The similarity between nucleotide sequences of recombination sites of two types of contegrates and those used for pE194 integration into the B. subtilis chromosome (Bashkirov et al. 1987) was demonstrated. Possible mechanisms of illegitimate recombination are discussed.     

糖多孢红霉菌同源片段长度与染色体重组率关系的研究

为了探索同源片段长度与糖多孢红霉菌染色体同源重组率的关系,化学合成或用重叠PCR合成带有突变位点、在突变位点两侧长度为（26bp+27bp）、（500bp+576bp）和（1908bp+1749bp）的同源序列,克隆于糖多孢红霉菌同源重组载体pWHM3后,分别构建了pWHM1113、 pWHM1116和 pWHM1119质粒。以PEG介导转化糖多孢红霉菌A226原生质体,3个质粒分别获得每皿30个、69个和170个转化子,但pWHM1113质粒不能与染色体有效整合,pWHM1116质粒与染色体整合率为转化子的2%,而pWHM1119质粒与染色体整合率达到转化子的19%。 pWHM1116和 pWHM1119质粒均可进行有效的染色体二次重组,将突变位位点引入染色体。因此,同源片段长度为（500bp+576bp）或更长时,可与糖多孢红霉菌染色体进行有效的单重组和双重组。     

Analysis of plasmid deletional instability in Bacillus subtilis.

Using a model system, we have studied deletion formation in Bacillus subtilis. When the staphylococcal plasmids pSA2100 (7.1 kilobases) and pUB110 (4.5 kilobases) were ligated to one another at their unique XbaI sites and transformed into either rec+ or recE4 strains of B. subtilis, an intramolecular recombination event usually occurred. Two plasmids, one of 2.6 kilobases and the other of 9.0 kilobases, were consistently isolated and shown by restriction enzyme analysis to be derived by recombination occurring in the pSA2100-pUB110 cointegrate. Analysis of the sequence of the junctions of the recombinant plasmids and of the crossover regions of the parental plasmids suggested that a reciprocal, conservative, intramolecular recombination event had occurred between short 18-base-pair homologous sequences that were oriented as direct repeats and bounded by regions of dyad symmetry. Evidence is presented that the above illegitimate recombination event is biased to occur intramolecularly and that randomly chosen direct repeats of either 22 or 29 base pairs are not sufficient to support recombination. The recombination event occurs in recA1, recB2, recD3, recE5, recL16, recM13, polA59, polA13, uvr-22, uvr-13, and stb mutants of B. subtilis and does not require that the competent state be established.     

Escherichia coli XerC recombinase is required for chromosomal segregation at cell division

XerC is a site-specific recombinase of the bacteriophage lambda integrase family that is encoded by xerC at 3700 kbp on the genetic map of Escherichia coli. The protein was originally identified through its role in converting multimers of plasmid ColE1 to monomers; only monomers are stably inherited. Here we demonstrate that XerC also has a role in the segregation of replicated chromosomes at cell division. xerC mutants form filaments with aberrant nucleotides that appear unable to partition correctly. A DNA segment (dif) from the replication terminus region of the E. coli chromosome binds XerC and acts as a substrate for XerC-mediated site-specific recombination when inserted into multicopy plasmids. This dif segment contains a region of 28 bp with sequence similarity to the crossover region of ColE1 cer. The cell division phenotype of xerC mutants is suppressed in strains deficient in homologous recombination, suggesting that the role of XerC/dif in chromosomal metabolism is to convert any chromosomal multimers (arising through homologous recombination) to monomers.     

Cloning of the recA gene of Neisseria gonorrhoeae and construction of gonococcal recA mutants.

Interspecific complementation of an Escherichia coli recA mutant was used to identify recombinant plasmids within a genomic cosmid library derived from Neisseria gonorrhoeae that carry the gonococcal recA gene. These plasmids complement the E. coli recA mutation in both homologous recombination functions and resistance to DNA damaging agents. Subcloning, deletion mapping, and transposon Tn5 mutagenesis were used to localize the gonococcal gene responsible for suppression of the E. coli RecA- phenotype. Defined mutations in and near the cloned gonococcal recA gene were constructed in vitro and concurrently associated with a selectable genetic marker for N. gonorrhoeae and the mutated alleles were then reintroduced into the gonococcal chromosome by transformation-mediated marker rescue. This work resulted in the construction of two isogenic strains of N. gonorrhoeae, one of which expresses a reduced proficiency in homologous recombination activity and DNA repair function while the other displays an absolute deficiency in these capacities. These gonococcal mutants behaved similarly to recA mutants of other procaryotic species and displayed phenotypes consistent with the data obtained by heterospecific complementation in an E. coli recA host. The functional activities of the recA gene products of N. gonorrhoeae and E. coli appear to be highly conserved.