Use of recombination techniques to examine the structure of the csg locus of Myxococcus xanthus

Summary The technique of chromosome walking was used to isolate approximately 60 kb of DNA from the region containing the complementation group uncoordinated of Drosophila melanogaster, located in that part of the X chromosome which spans the euchromatin-heterochromatin junction. The cloned DNA can be divided into two distinct regions. The first contains sequences that are low copy number or unique and are largely conserved between strains. The second region is characterized by units repeated in tandem arrays and is polymorphic within, and between, strains. Each repetitive unit is separated by a member of an abundant sequence family, part of which is homologous to the ribosomal type 1 insertion sequence of D. melanogaster. The molecular organization of the cloned DNA was compared with that of sequences isolated from regions of intercalary heterochromatin and also with genes which have been characterized from more conventional euchromatic regions.     

Positive selection for Dictyostelium discoideum mutants lacking UMP synthase activity based on resistance to 5-fluoroorotic acid

Summary In the cellular slime mould Dictyostelium discoideum the two enzymatic activities of the pyrimidine pathway, orotidine-5-phosphate decarboxylase (EC 4.1.1.23; OMPdecase) and orotate phosphoribosyl transferase (EC 2.4.2.10; OPRTase), are encoded by a single gene (DdPYR5-6). As in higher eukaryotes the bifunctional enzyme is referred to as UMP synthase. Here we present a method that allows efficient generation and selection of mutants lacking UMP synthase. D. discoideum cells are transformed with either of two different types of plasmids. One plasmid type contains no sequences homologous to the UMP synthase gene whereas the other type contains at least parts of this gene. UMP synthase^– mutants, which were positively selected for in the presence of 5-fluoroorotic acid (5-FOA), were obtained with both plasmids. However, mutation rates were at least one order of magnitude higher if plasmids containing various portions of the UMP synthase gene were used as opposed to plasmids that lack any homology to the UMP synthase locus. Several mutant strains were extensively characterized. These strains lack OMPdecase activity and exhibit in addition to 5-FOA resistance a ura ^– phenotype. All mutants carry UMP synthase loci with deletions of various extents but integration of transforming plasmids was not detected. This efficient generation of 5-FOA resistance is part of a proposed complex selection scheme which allows multiple rounds of transformation of D. discoideum.     

关键基因的修饰对枯草芽孢杆菌尿苷合成的影响

【目的】探究磷酸核糖焦磷酸(PRPP)合成酶(prs)和氨甲酰磷酸合成酶(pyr AA/pyr AB)的点突变,以及异源5′-核苷酸酶(sdt1)的过表达,对枯草芽孢杆菌尿苷生物合成的影响。【方法】依据推断的变构位点,分别在prs基因和pyr AB基因编码序列中引入点突变;将点突变的prs基因在染色体xyl R位点整合表达,pyr AB基因则在染色体原位被修饰;sdt1基因在染色体sac B位点整合过表达。通过对重组菌摇瓶发酵液中尿苷、胞苷和尿嘧啶的分析,表征相关基因修饰对尿苷合成的影响。【结果】在PRPP合成酶中引入Asn120Ser、Leu135Ile和Glu52Gly或Val312Ala点突变,分别导致尿苷积累量提高67%和96%。进一步在氨甲酰磷酸合成酶中引入Ser948Phe、Thr977Ala和Lys993Ile点突变,导致尿苷积累量又增加了182%,达到6.97 g/L。在此基础上,过表达异源5′-核苷酸酶,导致尿苷产量增加17%,达到8.16 g/L。【结论】PRPP合成酶和氨甲酰磷酸合成酶的酶活或反馈抑制调节机制,是限制尿苷过量合成的重要因素。PRPP合成酶的Asn120Ser和Leu135Ile点突变,以及氨甲酰磷酸合成酶的Ser948Phe、Thr977Ala和Lys993Ile点突变,能够显著促进尿苷合成。PRPP合成酶附加的Glu52Gly或Val312Ala点突变,有利于尿苷合成。异源的嘧啶专一性5′-核苷酸酶的引入,也对尿苷的合成有明显的促进作用。     

Characterization of ard B and ard C actin gene loci of Physarum polycephalum

Summary Physarum polycephalum (strain M₃CVIII) contains four unlinked actin gene loci, each with two alleles (ard A1, ard A2, ard B1, ard B2, ard C1, ard C2, ard D1 and ard D2). The 4.8 kbp HindIII component of the ard C2 locus was isolated as a recombinant phage-, after HindIII fragments of Physarum DNA ranging from 4.3 kbp to 5.5 kbp were cloned into phage- NM1149. The fraction of Physarum DNA cloned contained the ard C locus, and no other actin locus. Small inserts were favoured to reduce the probability of cloning a complete repetitive element, because such elements have been found to adversely affect the stability of recombinants.The coding sequences of the actin gene (approximately 1.1 kbp) spanned more than 3 kbp indicating the presence of introns. A 1.6 kbp HindIII/EcoRI fragment of the ard C locus, which contained some coding sequences, hybridized extensively with HindIII fragments of genomic DNA indicating the presence of repetitive sequences. A 2.3 kbp HindIII/EcoRI fragment containing most of the coding sequences of the C2 allele of the ard C locus hybridized with the C1, allele and both alleles of the ard B locus, but not with the ard A locus or ard D locus. This distinction was used to establish for the ard B and ard C loci the relationship between the EcoRI and HindIII fragments that define an ard locus. The ability to distinguish between ard loci may facilitate studies of the expression of particular actin loci.     

Chalcone synthase in rice (Oryza sativa L.): Detection of the CHS protein in seedlings and molecular mapping of the chs locus

The chalcone synthase is a key enzyme that catalyses the first dedicated reaction of the flavonoid pathway in higher plants. The chs gene and its protein product in rice has been investigated. The presence of a chalcone synthase (CHS) protein in rice seedlings and its developmental stage-specific expression has been demonstrated by western analysis. The chalcone synthase of rice was found to be immunologically similar to that of maize. A rice cDNA clone, Os-chs cDNA, encoding chalcone synthase, isolated from a leaf cDNA library of an indica rice variety Purpleputtu has been mapped to the centromeric region of chromosome 11 of rice. It was mapped between RFLP markers RG2 and RG103. RG2 is the nearest RFLP marker located at a genetic distance of 3.3 cM. Some segments of chromosome 11 of rice including chs locus are conserved on chromosome 4 of maize. The markers, including chs locus on chromosome 11 of rice are located, though not in the same order, on chromosome 4 of maize. Genetic analysis of purple pigmentation in two rice lines, Abhaya and Shyamala, used in the present mapping studies, indicated the involvement of three genes, one of which has been identified as a dominant inhibitor of leaf pigmentation. The Os-chs cDNA shows extensive sequence homology, both for DNA and protein (deduced), to that of maize, barley and also to different monocots and dicots.     

Molecular cloning of mei-41, a gene that influences both somatic and germline chromosome metabolism of Drosophila melanogaster

The mei-41 gene of Drosophila melanogaster plays an essential role in meiosis, in the maintenance of somatic chromosome stability, in postreplication repair and in DNA double-strand break repair. This gene has been cytogenetically localized to polytene chromosome bands 14C4-6 using available chromosomal aberrations. About 60 kb of DNA sequence has been isolated following a bidirectional chromosomal walk that extends over the cytogenetic interval 14C1-6. The breakpoints of chromosomal aberrations identified within that walk establish that the entire mei-41 gene has been cloned. Two independently derived mei-41 mutants have been shown to carry P insertions within a single 2.2 kb fragment of the walk. Since revertants of those mutants have lost the P element sequences, an essential region of the mei-41 gene is present in that fragment. A 10.5 kb genomic fragment that spans the P insertion sites has been found to restore methyl methanesulfonate resistance and female fertility of the mei-41 ^D3 mutants. The results demonstrate that all the sequences required for the proper expression of the mei-41 gene are present on this genomic fragment. This study provides the foundation for molecular analysis of a function that is essential for chromosome stability in both the germline and somatic cells.This Paper is dedicated to the memory of Professor James B. Boyd     

Amplification of the UMP synthase gene and enzyme overproduction in pyrazofurin-resistant rat hepatoma cells. Molecular cloning of a cDNA for UMP synthase

The levels of UMP synthase protein and mRNA are increased in rat hepatoma cells that have acquired resistance to pyrazofurin, a potent inhibitor of pyrimidine biosynthesis. A cDNA plasmid library was prepared from partially purified poly(A)+ mRNA isolated from the resistant cell line. Recombinant plasmids with inserts complementary to UMP synthase mRNA were selected by differential hybridization with cDNA prepared from wild type and resistant cell mRNA and analysis of hybrid-selected mRNA by in vitro translation reactions. One plasmid, pUMPS-2, contains a 850-base pair insert and was used to analyze UMP synthase gene sequences in the wild type and resistant cell lines. Blot hybridization of restricted genomic DNA demonstrated amplification of the UMP synthase gene in the resistant cells. The number of UMP synthase genes is increased 15-fold as determined by a modified dot hybridization procedure. Previous studies have shown that the resistant cells have a 16-fold increase in UMP synthase mRNA but a 40-fold increase in synthase activity (Suttle, D.P. (1983) J. Biol. Chem. 258, 7707-7713). To further investigate this discrepancy between the amount of increase in DNA and mRNA versus the increase in enzyme activity, we have determined the relative rate of synthesis and degradation of UMP synthase. The rate of synthesis was 13-fold faster in the resistant cells. The degradation rate was not significantly different between the two cell lines. These data indicate that gene amplification is the major factor contributing to the enzyme overproduction in the pyrazofurin-resistant cells.     

The Pik m gene, conferring stable resistance to isolates of Magnaporthe oryzae , was finely mapped in a crossover-cold region on rice chromosome 11

The Pik ^m gene in rice confers a high and stable resistance to many isolates of Magnaporthe oryzae collected from southern China. This gene locus was roughly mapped to the long arm of rice chromosome 11 with restriction fragment length polymorphic (RFLP) markers in the previous study. To effectively utilize the resistance, a linkage analysis was performed in a mapping population consisting of 659 highly susceptible plants collected from four F₂ populations using the publicly available simple sequence repeat (SSR) markers. The result showed that the locus was linked to the six SSR markers and defined by RM254 and RM144 with ≈13.4 and ≈1.2 cM, respectively. To fine map this locus, additional 10 PCR-based markers were developed in a region flanked by RM254 and RM144 through bioinformatics analysis (BIA) using the reference sequence of cv. Nipponbare. The linkage analysis with these 10 markers showed that the locus was further delimited to a 0.3-cM region flanked by K34 and K10, in which three markers, K27, K28, and K33, completely co-segregated with the locus. To physically map the locus, the Pik ^m -linked markers were anchored to bacterial artificial chromosome clones of the reference cv. Nipponbare by BIA. A physical map spanning ≈278 kb in length was constructed by alignment of sequences of the clones anchored by BIA, in which only six candidate genes having the R gene conserved structure, protein kinase, were further identified in an 84-kb segment.     

Isolation and characterization of Tn5-induced NADPH-glutamate synthase (GOGAT-) mutants of Azorhizobium sesbaniae ORS571 and cloning of the corresponding glt locus

Summary Random Tn5 mutagenesis was used to isolate two independent Azorhizobium sesbaniae ORS571 mutants disturbed in ammonium assimilation (Asm^-). Both Asm^- mutant strains were shown to lack NADPH-glutamate synthase (NADPH-GOGAT) activity and to carry Tn5 insertions ca. 1.5 kb apart in the ORS571 chromosome. The Tn5-containing region of one of the GOGAT^- mutant strains was cloned in pACYC184 and used to identify the wild-type glt (GOGAT) locus in a phage clone bank of ORS571. The cloned region was shown to have DNA homology with the Escherichia coli glt locus and to complement the Asm^- phenotype of E. coli and ORS571 GOGAT^- strains. The ORS571 GOGAT^- mutations were found to interfere with free-living as well as symbiotic nitrogen fixation. Expression of ORS571 NADPH-GOGAT activity was shown to be independent of the nitrogen regulation (ntr) system.     

Integration of repeated sequences (pBR322) in the Bacillus subtilis 168 chromosome without affecting the genome structure

The Escherichia coli plasmid pBR322 sequence (4363 bp) was integrated at the met, pro, or leuB locus of the Bacillus subtilis chromosome without duplication of the flanking chromosomal regions. The integrated pBR322 was stably maintained as part of the chromosome regardless of its orientation or location. It was found that a DNA segment as large as 17 kb cloned in pBR322 can be readily transferred to the B. subtilis chromosome by transformation. It was demonstrated that a second pBR322 sequence could be effectively introduced at different regions of the chromosome by sequential transformation using chromosomal DNA isolated from a strain that had already acquired a pBR322 sequence at a different locus. Similarly, a third pBR322 sequence could be introduced. By this method, two or three pBR322 sequences can be incorporated at unlinked loci without affecting the overall structure of the B. subtilis genome.     

Drosophila GABAergic systems II. Mutational analysis of chromosomal segment 64AB, a region containing the glutamic acid decarboxylase gene

The Drosophila melanogaster Gad gene maps to region 64A3-5 of chromosome 3L and encodes glutamic acid decarboxylase (GAD), the rate-limiting enzyme for the synthesis of the inhibitory neurotransmitter -aminobutyric acid (GABA). Because this neurotransmitter has been implicated in developmental functions, we have begun to study the role of GABA synthesis during Drosophila embryogenesis. We show that Gad mRNA is expressed in a widespread pattern within the embryonic nervous system. Similarly, GAD-immunoreactive protein is present during embryogenesis. These results prompted us to screen for embryonic lethal mutations that affect GAD activity. The chromosomal region to which Gad maps, however, has not been subjected to an extensive mutational analysis, even though it contains several genes encoding important neurobiological, developmental, or cellular functions. Therefore, we have initially generated both chromosomal rearangements and point mutations that map to the Drosophila 64AB interval. Altogether, a total of 33 rearrangements and putative point mutations were identified within region 64A3-5 to 64B12. Genetic complementation analysis suggests that this cytogenetic interval contains a minimum of 19 essential genes. Within our collection of lethal mutations are several chromosomal rearrangements, two of which are in the vicinity of the Gad locus. One of these rearrangements, Df(3L)C175, is a small deletion that removes the Gad locus and at least two essential genes; the second, T(2;3)F10, is a reciprocal translocation involving the second and third chromosomes with a break within region 64A3-5. Both of these rearrangements are associated with embryonic lethality and decreased GAD enzymatic activity.     

Chromosome walking with YAC clones in Arabidopsis: isolation of 1700 kb of contiguous DNA on chromosome 5, including a 300 kb region containing the flowering-time gene CO

The co mutation of Arabidopsis thaliana causes a late-flowering phenotype that is insensitive to day-ength. The mutation was mapped previously to the upper arm of chromosome 5, approximately 1.6 cM from the chalcone synthase gene (CHS). We were provided with five yeast artificial chromosome (YAC) libraries and used these to perform a chromosome walk from CHS to the CO gene. In this paper we report the isolation of 1700 kb of contiguous Arabidopsis DNA, which represents approximately 1%–2% of the genome, inserted in YACs. This required the detailed analysis of 67 YACs, from which 87 end probes were isolated and examined in hybridisation experiments. This analysis showed that approximately 40% of the YACs presented problems in chromosome walking experiments because they contained repetitive sequence at one of their termini, were chimaeric or because part of the plant DNA was deleted. DNA fragments isolated from YACs were used as restriction fragment length polymorphism (RFLP) markers to localize CO to a 300 kb region within the cloned DNA. We compare the physical distance between CHS and CO with the genetic distance and find that in this region 1 cM is equivalent to approximately 200 kb.     

Cloning and DNA sequence analysis of the mercury resistance genes of Streptomyces lividans

Summary A broad-spectrum mercury resistance locus (mer) from a spontaneous chloramphenicol-sensitive (Cm^s), arginine auxotrophic (Arg^–) mutant of Streptomyces lividan 1326 was isolated on a 6 kb DNA fragment by shotgun cloning into the mercury-sensitive derivative S. lividans TK64 using the vector pIJ702. The mer genes form part of a very large amplifiable DNA sequence present in S. lividans 1326. This element was amplified to about 20 copies per chromosome in the Cm^s Arg^– mutant and was missing from strains like S. lividans TK64, cured for the plasmid SLP3. DNA sequence analysis of a 5 kb region encompassing the whole region required for broad-spectrum mercury resistance revealed six open reading frames (ORFs) transcribed in opposite directions from a common intercistronic region. The protein sequences predicted from the two ORFs transcribed in one direction showed a high degree of similarity to mercuric reductase and organomercurial lyase from other gram-negative and gram-positive sources. Few, if any, similarities were found between the predicted polypeptide sequences of the other four ORFs and other known proteins.     

番茄中Rpi-blb2同源基因的挖掘与鉴定

番茄晚疫病是番茄生产中的主要病害之一,经常会造成较大的经济损失。晚疫病生理小种的变异和进化常会导致番茄品种原有的遗传抗性丧失,因此不断挖掘新的抗性基因,改良番茄晚疫病抗性是番茄抗病育种的长期任务。该研究采用BLAST同源比对的方法,以马铃薯野生近缘种的晚疫病抗性蛋白序列Rpi-blb2为种子序列,在NCBI蛋白质序列数据库中检索得到11条番茄蛋白质序列,这些序列与种子序列相似性为78%~83%,属于番茄疾病抗性蛋白家族,并对该家族成员进行了基因结构、基因定位、序列保守结构域和进化关系等分析。结果表明:该家族中10条序列分布在第Ⅵ条染色体上,1条分布在第Ⅴ染色体上;6号染色体上的10序列呈现2个抗病基因簇分布,在染色体上分别占据2个和3个基因位点;10条同源蛋白是Rpi-blb2的共同垂直同源蛋白,但不具有平行同源关系,大多数成员定位于细胞质。按照蛋白质保守结构域和基因定位的不同可分为三类,第一类共4条系列,包含有DUF3542和NB-ARC两个保守结构域特征序列;第二类共6条序列,与马铃薯Rpi-blb2蛋白一样,仅包含NB-ARC保守结构域特征序列,在这2类蛋白序列的NB-ARC结构域均位于序列中部;第三类(仅包含XP_004239406.1)虽然也具有与第一类蛋白相似的DUF3542和NB-ARC结构域,但在结构域两端的非保守区序列较短,且位于5号染色体上,因此将其单独归为1类。前两类蛋白成员相应的基因具有1~2个内含子,第3类蛋白不含内含子。该研究结果为利用生物技术选育番茄抗性品种提供了理论基础。     

Genomic and cDNA clones of the homeotic locus Antennapedia in Drosophila.

Homeotic genes are involved in the control of developmental pathways: dominant mutations at the Antennapedia locus of Drosophila, for example, lead to replacement of the antennae on the head of the fly by mesothoracic legs. Using a combination of chromosome walking and jumping, we have cloned a DNA region from Drosophila containing Antennapedia. Five DNA inversion rearrangements which are associated with the Antennapedia mutant phenotype were localized within a 25-kb region. Genomic DNA sequences from this area were used as hybridization probes to screen cDNA libraries prepared from Drosophila embryonic and pupal poly(A)+ RNA. A 2.2-kb cDNA sequence (903) was isolated which appears to derive from at least four non-contiguous chromosomal regions that span 100 kb. It includes the positions of the inversion breakpoints. A second cDNA of 2.9 kb (909) is composed of sequences from at least three chromosomal regions, two of which are similar or identical to sequences contained in the 903 clone but the third is derived from genomic DNA within a putative 903 intron. The unusual size and complexity of this locus are discussed.     

Genetic analysis of the X-chromosomal region 1E-2A of Drosophila melanogaster

Reversion mutagenesis of three single P elements located in the cytogenetic interval 1E-2A at the tip of the X chromosome of Drosophila melanogaster was used to recover new deletions in this chromosomal region. The deletions obtained include small aberrations within region 2A and larger lesions extending from 2A into 1E and 1B. All three screens also yielded terminal deficiencies. The new deficiencies, together with previously characterized rearrangements, were analyzed for their complementation behaviour with the maternal effect locus fs(1)Nasrat and lethal loci in the region. These analyses provide an overall genetic map of the interval 1E-2A. In addition, the smaller deletions were physically mapped within cloned genomic DNA of the 2A region.