布鲁菌噬菌体的生物学特性研究进展

布鲁菌属(Brucellae)细菌在核酸水平上非常相似,随着不同环境中布鲁菌新种及变异菌的出现,噬菌体分型实验在布鲁菌种的分型鉴定中依然发挥着不可替代的作用,本文从布鲁菌噬菌体的生长特征和宿主范围方面进行综述。     

Restriction map of CELO virus DNA

A restriction map of chicken embryo lethal orphan (CELO) virus DNA was reported with ten restriction endonucleases (XbaI, XhoI, SalI, HindIII, EcoRI, BglI, KpnI, BamHI, PstI and SstI). CELO virus DNA was estimated by comparing CELO virus DNA fragments with marker DNA fragments to have a molecular weight of 29.3·10⁶.     

Rice chloroplast DNA: a physical map and the location of the genes for the large subunit of ribulose 1,5-bisphosphate carboxylase and the 32 KD photosystem II reaction center protein

Summary By homogenizing rice leaves in liquid nitrogen, it was possible to isolate intact chloroplasts and, subsequently, pure rice chloroplast DNA from the purified chloroplasts. The DNA was digested by several restriction enzymes and fragments were fractionated by agarose gel electrophoresis. The sum of the fragment sizes generated by the restriction enzymes showed that the total length of the DNA is 130 kb. A circular physical map of fragments, generated by digestion with SalI, PstI, and PvuII, has been constructed. The circular DNA contains two inverted repeats of about 20 kb separated by a large, single copy region of about 75 kb and a short, single copy region of about 15 kb. The location of the gene for the large subunit of ribulose 1,5-bisphosphate carboxylase (Fraction I protein) and the 32 KD photosystem II reaction center gene were determined by using as probes tobacco chloroplast DNAs containing these genes. Rice chloroplast DNA differs from chloroplast DNAs of wheat and corn as well as from dicot chloroplast DNAs by having the 32 KD gene located 20 kb removed from the end of an inverted repeat instead of close to the end, as in other plants.     

Restriction endonuclease cleavage site map of safflower (Carthamus tinctorius L.) chloroplast DNA

Summary The restriction endonucleases SalI, PstI, KpnI and HindIII have been used to construct a physical map of safflower (Carthamus tinctorius L.) chloroplast DNA. This was accomplished by hybridizing Southern blots of single and double digested chloroplast DNA with ³²P-dCTP nick-translated SalI, KpnI and HindIII probes which were individually isolated from agarose gels. The chloroplast DNA was found to be circular and to contain approximately 151 kbp. In common with many other higher plant chloroplast DNAs a sequence of about 25 kbp is repeated in an inverted orientation. The small and large single copy regions separating the two repeated segments contain about 20 kbp and 81 kbp, respectively. The rRNA structural genes were also mapped by Southern blot hybridization and are co-linear with several other plant species.     

Molecular cloning and physical map of bacteriophage PM2 DNA

The entire genome and the DNA fragments of the lipid-containing bacteriophage pM2 were cloned in the pBR322 plasmid vector. A physical map including the sites for the following restriction enzymes was obtained: HpaII, HaeIII, TthI, Sau96I, AvaII, PstI, BstNI, AccI, HincII, HpaI and HindIII. No restriction sites on PM2 DNA were found for BalI, BamHI, BclI, BglI, BglII, BstEII, KpnI, PvuII, SacI, SalI, Sau3A, XbaI and XhoI.     

Clone bank and physical and genetic map of potato chloroplast DNA

Summary Clone banks of PvuII, BamHI and XhoI fragments were generated of the Solanum tuberosum cv Katahdin plastome. These clone banks, in conjunction with molecular hybridization to tobacco ctDNA probes, were used to construct a physical map of potato ctDNA. The potato plastome was found to be a circular molecule of 155–156 Kbp containing two inverted repeat regions of 23–27 Kbp. The arrangement of restriction sites is very similar to that of other Solanaceae plastomes. Heterologous hybridization to known ctDNA encoded gene probes from tobacco allowed us to establish a genetic map of the potato chloroplast genome. The arrangement of these genes on the potato plastome resembles that on most higher plant ctDNAs.     

Chloroplast DNA differences between cultivated hop,Humulus lupulus and the related species H. japonicus

Chloroplast DNA (cpDNA) of Humulus Lupulus and H. japonicus was examined by restriction endonuclease analysis with BamHI, BanI, BclI, BstEII, DraI, EcoRI, EcoRV, HindIII, KpnI, PaeR7I, PstI, PvuII, SalI and XhoI. The restriction fragment patterns showed that the cpDNAs shared a large number of restriction sites. However, the chloroplast genomes of the two species could be distinguished by differences in restriction site and restriction fragment patterns in the PstI, PvuII, BclI, EcoRV, DraI and HindIII digests. On the basis of the complexity of restriction enzyme patterns, the enzymes PstI, PvuII, SalI, KpnI and XhoI were selected for mapping the chloroplast genomes. Single and double restriction enzyme digests of cpDNA from the two species were hybridized to cpDNA probes of barley and tobacco. The data obtained from molecular hybridization experiments were used to construct the cleavage site maps. Except for the PstI digest, the arrangement of cpDNA restriction sites was found to be the same for both species. An extra PstI site was present in H. lupulus. Three small insertions/deletions of about 0.8 kbp each were detected in the chloroplast genomes of the two species. Two of these insertions/deletions were present in the large and one in the small singlecopy region of the chloroplast genome. The cpDNA of Humulus was found to be a circular molecule of approximately 148 kbp that contains two inverted repeat regions of 23 kbp each, a small and a large single -copy region of approximately 20 kbp and 81 kbp, respectively. The chloroplast genome of hop has the same physical and structural organization as that found in most angiosperms.     

Cosntruction of the physical map of yeast（Saccharomyces cerevisiae）chromosome V~1

There are about 17 chromosomes in yeast Saccharomycescerevisiae.A middle sized chromosome,chromosome V,waschosen in this work for studying and constructing the physi-cal maps.Chromosome V from strain A364a was isolatedby pulsed-field gradient gel electrophoresis(PFGE).Gelslices containing chromosome V DNA were digestedwith two rare cutting enzymes,NotⅠand SfiⅠ,and three6-Nt recognizing enzymes,SmaⅠ,SstⅡ and ApaⅠ.Several strategies-partial or complete digestions,digestion with different sets of two enzymes,and hybrid-ization with cloned genetically mapped probes(CAN1,URA3,CEN5,PRO3,CHO1,SUP19,RAD51,RAD3)——were used to align the restriction fragments.There are 9,9,15,17,and 20 sites for NotⅠ,SfiⅠ,SmaⅠ,SstⅡ and ApaⅠrespectively in the map of the A364a chromosome V.Itstotal length was calculated to be 620 Kb(Kilo-bases).Thedistributions of the cutting sites for these five enzymesthrough the whole chromosome are not uniform.A comp-arison between the physical map and the genetic map wasalso made.     

Nucleotide sequence and genome organization of bacteriophage S13 DNA

The complete sequence of bacteriophage S13 DNA has been determined. The molecule has 5386 nucleotides and differs from φX174 by 87 transitions and 24 transversions. All the proteins, A, A^*, B, C, D, E, F, G, H, J and K found in φX174 are also present in S13. Due to changes in the H/A intergenic region of S 13, the start of an additional protein. A′, has been identified. Genes F and H coding for the capsid and spike proteins, respectively, are the least conserved in comparison to φX174. Many of the silent changes, as well as some amino acid changes, are found in the same nucleotide sequence positions in phage G4, confirming the interrelationship between the three phages.     

New physical map of bacteriophage T5 DNA.

The locations of 103 cleavage sites, produced by 13 restriction endonucleases, were mapped on the DNA of bacteriophage T5. Single- and double-digest fragment sizes were determined by agarose gel electrophoresis, using restriction fragments of phi X174 DNA and lambda DNA as molecular weight standards. Map coordinates were determined by a computer-based least-squares procedures (J. Schroeder and F. Blattner, Gene [Amst] 4:167-174, 1978). The fragment sizes predicted by the final map are all within 2% of the measured values. Based on this analysis, T5st(+) DNA contains 121,300 base pairs (Mr, 80.3 X 10(6) and has a terminal repetition of 10,160 base pairs (Mr, 6.7 X 10(6)). Restriction endonuclease analysis after treatment with exonuclease III and a single-strand-specific endonuclease allowed precise localization of five of the natural single-chain interruptions in T5 DNA. Revised locations for several T5 deletions were also determined.     

Restriction site polymorphisms in the genes encoding new members of group 3 outer membrane protein family of Brucella spp

Thirty-seven Brucella reference and field strains representing all the species and their biovars were analysed by PCR-RFLP to determine the degree of variation in the genes encoding the new members of group 3 outer membrane protein (Omp) family. Analysis of the omp22 and omp25c/omp25d genes indicated that the restriction patterns were identical for all species and biovars with all restriction enzymes tested, except for Brucella ovis that showed a short 30 bp deletion close to omp22 gene, and for B. abortus biovar 6 and B. ovis that lacked a DdeI site and a HinfI site, respectively, in the omp25c/omp25d genes. Analysis of PCR products of the omp31b gene digested with 20 restriction enzymes revealed that this gene has a greater level of DNA polymorphism than the other genes encoding the new members of group 3 Omp family. A deletion of 232bp was detected in fourteen B melitensis strains from different hosts and from different geographic origins, confirming that this feature is indeed a hallmark of B. melitensis. PCR-RFLP analysis of omp31b with DdeI allowed us to identify species-specific markers for B. abortus, B. melitensis, and B. ovis. Finally, by PCR analysis, Southern blot hybridization and DNA sequencing we showed that a large deletion of 15 kb, comprising the entire omp25b gene and 21 more genes, is present in all B. ovis strains, thus confirming previous observations from other authors.     

A first generation bovine BAC-based physical map

A first generation clone-based physical map for the bovine genome was constructed combining, fluorescent double digestion fingerprinting and sequence tagged site (STS) marker screening. The BAC clones were selected from an Inra BAC library (105 984 clones) and a part of the CHORI-240 BAC library (26 500 clones). The contigs were anchored using the screening information for a total of 1303 markers (451 microsatellites, 471 genes, 127 EST, and 254 BAC ends). The final map, which consists of 6615 contigs assembled from 100 923 clones, will be a valuable tool for genomic research in ruminants, including targeted marker production, positional cloning or targeted sequencing of regions of specific interest.     

犬种布鲁氏菌的遗传多样性分析

【背景】犬种布鲁氏菌是犬种布病的病原菌,主要导致犬流产和繁殖障碍。虽然犬种布鲁氏菌感染人群的病例极为少见,但是犬种布鲁氏菌对人的安全风险仍存在争议。目前,我国犬种布病的流行病学特征及犬种布鲁氏菌的遗传多样性的研究相对缺乏。开展犬种布病的流行特征及遗传多样性调查对加强犬种布病的监测防控具有重要意义。【目的】对犬种布病的流行病学特征和犬种布鲁氏菌的遗传多态性进行调查,为犬种布病的防控提供参考。【方法】采用常规鉴定方法和BCSS-PCR对63株试验菌株进行鉴定。采用HGDI (Hunter and Gaston diversity index)多态性指数调查犬种布鲁氏菌的遗传多态性,用MLVA方法基于BioNumerics5.0软件对菌株进行聚类分析,揭示犬种布病的流行病学特点。此外,基于MLVA-11采用goeBURST软件构建犬种布鲁氏菌的最小生成树(Minimum spanning tree,MST),阐述我国犬种布鲁氏菌的地理起源特征。【结果】常规鉴定方法和BCSS-PCR扩增结果显示63株试验菌株全部为犬种布鲁氏菌。BCSS-PCR与常规鉴定方法的符合率为100%,BCSS-PCR的分析敏感性为10-3 (即50 pg/μL犬种布鲁氏菌DNA)。我国犬种布鲁氏菌具有较高的遗传多样性,基于HGDI分析表明Panel 2B的5个位点具有较高的变异度,等位基因型由高到底依次为bruce09(11) bruce07(8)bruce16(7)bruce04(6)bruce30(5)。MLVA聚类分析表明北京地区出现了3次较小规模的犬种布病暴发流行,其余地区均为零星散发。我国犬种布鲁氏菌可分为5个地理集群,以MLVA-11基因26型克隆群为主导种群,该种群与来自美国、希腊、加拿大、法国、罗马尼亚和韩国等国家的菌株具有共同的地理起源,其余4个种群为中国特有。【结论】我国犬种布鲁氏菌呈现高度的遗传多样性并有广泛的地理来源,表现为输入性和中国特有血统共存的起源进化特征。     

A high-resolution physical map integrating an anchored chromosome with the BAC physical maps of wheat chromosome 6B

Background

A complete genome sequence is an essential tool for the genetic improvement of wheat. Because the wheat genome is large, highly repetitive and complex due to its allohexaploid nature, the International Wheat Genome Sequencing Consortium (IWGSC) chose a strategy that involves constructing bacterial artificial chromosome (BAC)-based physical maps of individual chromosomes and performing BAC-by-BAC sequencing. Here, we report the construction of a physical map of chromosome 6B with the goal of revealing the structural features of the third largest chromosome in wheat.

Results

We assembled 689 informative BAC contigs (hereafter reffered to as contigs) representing 91 % of the entire physical length of wheat chromosome 6B. The contigs were integrated into a radiation hybrid (RH) map of chromosome 6B, with one linkage group consisting of 448 loci with 653 markers. The order and direction of 480 contigs, corresponding to 87 % of the total length of 6B, were determined. We also characterized the contigs that contained a part of the nucleolus organizer region or centromere based on their positions on the RH map and the assembled BAC clone sequences. Analysis of the virtual gene order along 6B using the information collected for the integrated map revealed the presence of several chromosomal rearrangements, indicating evolutionary events that occurred on chromosome 6B.

Conclusions

We constructed a reliable physical map of chromosome 6B, enabling us to analyze its genomic structure and evolutionary progression. More importantly, the physical map should provide a high-quality and map-based reference sequence that will serve as a resource for wheat chromosome 6B.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1803-y) contains supplementary material, which is available to authorized users.     

Infection by Brucella melitensis or Brucella papionis modifies essential physiological functions of human trophoblasts

Brucellosis is a zoonosis caused by bacteria of the Brucella genus. In ruminants, brucellosis causes abortion, followed by chronic infection and secretion of bacteria in milk. In humans, it usually presents as flu‐like symptoms, with serious complications if untreated. Epidemiological studies have only recently established that brucellosis can also cause pregnancy complications in women, but the pathogenic mechanisms are unknown. Pioneering studies in ruminants showed that Brucella infect trophoblasts and then colonise the placenta where they grow to high density. A recent study showed that the main zoonotic Brucella species can infect human cytotrophoblasts (CTB) and extravillous trophoblasts (EVT). In this work, we show that Brucella papionis (associated with stillbirth in primates) also infects human trophoblasts. However, it replicates actively in CTB, whereas its replication is very restricted within EVT. We also observed alteration of several trophoblastic functions upon infection by B. papionis or Brucella melitensis (the most prevalent species in human brucellosis). Infection altered the production of hormones, the ability of CTB to form syncytiotrophoblasts, and the invasion capacity of EVT. We also found that infection can spread between different types of trophoblasts. These findings constitute a new step in understanding how Brucella infection causes adverse pregnancy outcomes.     

Construction of a high-density,high-resolution genetic map and its integration with BAC-based physical map in channel catfish

Construction of genetic linkage map is essential for genetic and genomic studies. Recent advances in sequencing and genotyping technologies made it possible to generate high-density and high-resolution genetic linkage maps, especially for the organisms lacking extensive genomic resources. In the present work, we constructed a high-density and high-resolution genetic map for channel catfish with three large resource families genotyped using the catfish 250K single-nucleotide polymorphism (SNP) array. A total of 54,342 SNPs were placed on the linkage map, which to our knowledge had the highest marker density among aquaculture species. The estimated genetic size was 3,505.4 cM with a resolution of 0.22 cM for sex-averaged genetic map. The sex-specific linkage maps spanned a total of 4,495.1 cM in females and 2,593.7 cM in males, presenting a ratio of 1.7 : 1 between female and male in recombination fraction. After integration with the previously established physical map, over 87% of physical map contigs were anchored to the linkage groups that covered a physical length of 867 Mb, accounting for ∼90% of the catfish genome. The integrated map provides a valuable tool for validating and improving the catfish whole-genome assembly and facilitates fine-scale QTL mapping and positional cloning of genes responsible for economically important traits.     

大熊猫线粒体DNA的九种限制酶图谱

本文用9种限制性内切酶（BamHⅠ,BglⅠ,BglⅡ,EcoRⅠ,EcoRⅤ,PstⅠ,PvuⅡ,SalⅠ,XhoⅠ）分析大熊猫的线粒体DNA（mtDNA）。构建其中5种酶（BamHⅠ,EcoRⅠ,EcoRⅤ,PstⅠ,PvuⅡ）的mtDNA物理图谱。大熊猫mtDNA的分子大小约为16.4 Kb,酶切位点是随机分布。我们的结果为进一步研究大熊猫mtDNA进化提供了基础资料。     

The consensus land plant chloroplast gene order is present, with two alterations, in the moss Physcomitrella patens

Summary A restriction endonuclease cleavage site map for the enzymes ClaI and BglII, and a partial map for SacI, has been constructed for the chloroplast genome of the moss Physcomitrella patens (Hedw.) BSG. The plastid chromosome contains approximately 122 kb organized into small (21 kb) and large (82 kb) single-copy regions separated by two copies of a repeat sequence (9.4 kb) oriented in an inverted arrangement. Genes for 17 proteins and 2 ribosomal RNAs have been mapped using heterologous probes from corn, spinach, pea, and petunia. The general order and arrangement of the moss chloroplast genes are similar to the consensus land plant genome typified by that of spinach, with two major exceptions. First, there is an inversion of approximately 20 kb, bordered internally by psbA and atpH, and also containing the genes atpF and atpA. Second, rpl2 and rps19 have been relocated to a different position within the large single-copy region, adjacent to the 20 kb inversion.     

A physical map of the permuted genome of bacteriophage T1

Summary A restriction map has been constructed for the DNA of coliphage T1 which locates the cleavage sites of the restriction endonucleases, BglI (6 cuts), BglII (16 cuts), EcoRI (2 cuts), HindIII (2 cuts) and PstI (2 cuts). Digestions with BglI and BglII reveal fragments which are present in sub-molar quantities. Two methods, one using the selective removal of molecular ends with exonuclease III and the other involving the comparison of digestion patterns of concatemeric and virion DNA, have shown that the submolar fragments are at or close to the ends of the molecules. Digestions with BglI show that one terminal fragment has a very precise molecular weight whereas all the others are of heterogenous molecular weight. These results are consistent with the model for DNA packaging in which maturation is initiated at a precise site on a concatemeric precursor and proceeds by the encapsidation of up to four successive headfuls of 1.065 genome equivalents (MacHattie and Gill 1977).     

Isolation,physical map and gene map of mitochondrial DNA from the cryptomonad Pyrenomonas salina

Mitochondrial DNA (mtDNA) from the cryptomonad Pyrenomonas salina was isolated by CsCl-buoyant density centrifugation of whole-cell DNA in the presence of Hoechst dye 33258. mtDNA consists of circular molecules about 47 kb in size as estimated from restriction enzyme analysis. A physical map for six restriction enzymes (Bam HI, Bge I, Eco RI, Pst I, Sac I and Sac I) has been constructed. Genes coding for the small subunit of rRNA, cytochrome oxidase subunits I and II, and apocytochrome b were localized on this map using Southern blot hybridization with heterologous gene probes from Oenothera. Genes for 5S rRNA and NADH dehydrogenase subunit 5 are absent from P. salina mtDNA. The mitochondrial genome, being the first analysed to this extent in chromophytic algae, should be valuable for taxonomic and phylogenetic studies.