金色链霉菌DM-1全基因组序列测定及去甲金霉素合成基因簇分析

金色链霉菌Streptomyces aureofaciens DM-1是去甲基金霉素的高产菌株。通过Genome Sequencer FLX系统进行测序,得到一条完整的线性基因组序列,长度为6 824 334 bp,GC含量为72.6%。结合软件glimmer 3.02、Genemark和Z-Curve program进行基因预测,最终在其基因组中鉴定出6 431个基因。应用AntiSMASH软件预测其基因组中存在28个次级代谢生物合成基因簇,其中包含了去甲基金霉素生物合成基因簇。其中甲基转移酶CtcK因移码突变提前终止翻译,很可能是去甲基金霉素相对金霉素 (CTC) 缺失一个甲基的根本原因。研究结果为S. aureofaciens DM-1的功能基因组学和去甲基金霉素高产菌株育种提供了研究基础。     

石山苣苔属四种(含一变种)植物的染色体数目和倍性研究

石山苣苔属(苦苣苔科)约41种,主要分布于我国西南石灰岩地区。到目前为止,仅其中四种的染色体数目被研究和报道,其余绝大多数物种的染色体数目和倍性尚不清楚,染色体数目和倍性在该属及其姐妹属报春苣苔属中的演变历史及其对两属物种多样性分化的影响亦不清楚。该文以叶片水培生根法获取的四种(含一变种)石山苣苔属植物 [即石山苣苔原变种(Petrocodon dealbatus var. dealbatus)、齿缘石山苣苔(Petrocodon dealbatus var. denticulatus)、弄岗石山苣苔(Petrocodon longangensis)、石山苣苔未定名种(Petrocodon sp.)]的根尖细胞为材料开展染色体实验,探索了多种不同的实验条件对染色体制片效果的影响并获取染色体数目,在石山苣苔属和报春苣苔属的系统树上追踪了染色体数目和倍性的演变历史,同时探讨染色体数目尤其是倍性变化是否对两属物种多样性分化存在影响。结果表明:(1)长度为1～1.5 cm的根尖,0.002 mol·L^-1 8-羟基喹啉溶液预处理5 h,解离4 min为较适宜的染色体制备条件。(2)四种(含一变种)石山苣苔属植物染色体数目一致,均为二倍体(2n=2x=36)。(3)两属之间及两属各自的最近共同祖先染色体数目尚不能确定,除个别物种染色体条数或倍性有变化以外,其余已知染色体数目的物种均为2n=2x=36,在两属中高度一致,石山苣苔属与报春苣苔属物种多样性分化尤其两属物种多样性巨大差异与染色体数目和基因组倍性变化无关。综上结果为石山苣苔属植物及其近缘类群染色体制备提供了参考,也为进一步对该类群的分类、系统演化和物种形成等方面的研究提供了基础数据和启示。     

表型特征结合基因组分析鉴定不同菌落形态Bacillus velezensis ACCC 19742

在中国农业微生物菌种中心(ACCC)菌株的定期转接保藏过程中,发现解淀粉芽孢杆菌ACCC 19742在同一培养基上出现两种不同的菌落形态,将这两个不同形态的菌株编号为19742-1和19742-2。通过形态学、生理生化及基因组分析相结合鉴定不同菌落形态ACCC 19742,并进一步确定该菌株的分类地位。首先将菌株进行分离与纯化,其次将纯化后的菌株进行16S rRNA及gyrB基因扩增及序列分析,通过MEGA 7.0软件构建系统发育树;API 20NE、BIOLOG及脂肪酸等分析菌株的生理生化特性;全基因组分析菌株的ANI和DDH值。两株菌在API 20NE中,仅葡萄糖酸盐同化反应存在差异;脂肪酸检测中主要组成相同,仅是百分含量方面略有差别;两株菌的16S rRNA基因相似性为100%,gyrB基因的相似性为99.4%;全基因组测序表明,两株菌的ANI值为99.95%,DDH值为99.62%。综合遗传学特征和表型特征,证实两者为来源于同一菌株不同的形态变异型,而并非污染所致。同时,19742-1和19742-2与Bacillus velezensis NRRL_B 41580~T的ANI及DDH值最高,分别为97%和77%,且16S rRNA和gyrB系统进化分析也表明,该菌株在分类地位上属于贝莱斯芽孢杆菌(Bacillus velezensis),而非解淀粉芽孢杆菌。这为菌株的保藏提供了一定的参考价值。     

Characterization of alditol oxidase from Streptomyces coelicolor and its application in the production of rare sugars

A synthetic platform for the cascade synthesis of rare sugars using Escherichia coli whole cells was established. In the cascade, the donor substrate dihydroxyacetone phosphate (DHAP) was generated from glycerol by glycerol kinase (GK) and glycerol phosphate oxidase (GPO). The acceptor d-glyceraldehyde was directly produced from glycerol by an alditol oxidase. Then, the aldol reaction between DHAP and d-glyceraldehyde was performed by l-rhamnulose-1-phosphate aldolase (RhaD) to generate the corresponding sugar-1-phosphate. Finally, the phosphate group was removed by fructose-1-phosphatase (YqaB) to obtain the rare sugars d-sorbose and d-psicose. To accomplish this goal, the alditol oxidase from Streptomyces coelicolor (AldO_S.coe) was expressed in E. coli and the purified AldO_S.coe was characterized. Furthermore, a recombinant E. coli strain overexpressing six enzymes including AldO_S.coe was constructed. Under the optimized conditions, it produced 7.9 g/L of d-sorbose and d-psicose with a total conversion rate of 17.7% from glycerol. This study provides a useful and cost-effective method for the synthesis of rare sugars.     

基于BSA-seq法的油菜野芥胞质雄性不育恢复基因的分析

细胞质雄性不育是利用杂种优势创制油菜杂交种的重要途径之一。而恢复系的选育及恢复基因的研究有利于提高细胞质雄性不育系的应用价值。该研究以甘蓝型油菜细胞质雄性不育系1193A和恢复系15-R1为亲本,以F_2群体构建了2个极端性状混池,采用BSA-seq技术方法,对恢复基因进行定位分析。结果表明:(1)不育系1193A与恢复系15-R1之间共获得非同义突变的SNPs共33 883个,混池间共有7 996个非同义编码突变。(2)InDel检测与注释结果表明,亲本间引起移码突变的有2 918个,混池间引起移码突变的有840个。(3)综合SNP和InDel的关联分析结果,将恢复基因定位于C09染色体上的0～880000区域,总长度为880 kb。(4)对候选区域的SNP和InDel注释发现,亲本间存在非同义突变的SNP共40个,混池间存在非同义突变的SNP共65个,亲本间存在移码突变的InDel共7个,混池间存在移码突变的InDel共11个;对候选区间内的编码基因进行注释,结果共注释到162个基因,其中存在非同义突变基因11个,移码突变基因5个,这些基因可能与育性恢复有关。     

Komagataeibacter rhaeticus 3-15全基因组及葡萄糖脱氢酶基因缺失体的构建

细菌纤维素(BC)是一种新型的可再生、可降解的生物高分子材料。为了最大程度的发挥BC生产菌株K.rhaeticus 315的生产能力,本文首先对K.rhaeticus 315进行全基因组测序,通过功能基因的注释、分析碳源代谢流向。结果显示,该菌株碳代谢特征之一是缺乏磷酸果糖激酶的编码基因,不能通过EMP途径代谢糖类碳源,而是主要通过PPP途径和TCA途径代谢碳源,维持菌体生长和BC合成。由于葡萄糖脱氢酶的存在,该菌株在合成BC的同时生成大量副产物—葡萄糖酸。为此,本文通过敲除葡萄糖酸合成酶相关基因,即葡萄糖脱氢酶基因gcd,构建葡萄糖脱氢酶基因缺失重组株(gcd^-),将葡萄糖酸的生成量降低了77%。     

The influence of experimentally induced polyploidy on the relationships between endopolyploidy and plant function in Arabidopsis thaliana

Whole genome duplication, leading to polyploidy and endopolyploidy, occurs in all domains and kingdoms and is especially prevalent in vascular plants. Both polyploidy and endopolyploidy increase cell size, but it is unclear whether both processes have similar effects on plant morphology and function, or whether polyploidy influences the magnitude of endopolyploidy. To address these gaps in knowledge, fifty‐five geographically separated diploid accessions of Arabidopsis thaliana that span a gradient of endopolyploidy were experimentally manipulated to induce polyploidy. Both the diploids and artificially induced tetraploids were grown in a common greenhouse environment and evaluated with respect to nine reproductive and vegetative characteristics. Induced polyploidy decreased leaf endopolyploidy and stem endopolyploidy along with specific leaf area and stem height, but increased days to bolting, leaf size, leaf dry mass, and leaf water content. Phenotypic responses to induced polyploidy varied significantly among accessions but this did not affect the relationship between phenotypic traits and endopolyploidy. Our results provide experimental support for a trade‐off between induced polyploidy and endopolyploidy, which caused induced polyploids to have lower endopolyploidy than diploids. Though polyploidy did not influence the relationship between endopolyploidy and plant traits, phenotypic responses to experimental genome duplication could not be easily predicted because of strong cytotype by accession interactions.     

解淀粉芽孢杆菌生防菌BS-3全基因组测序及生物信息分析

【背景】解淀粉芽孢杆菌BS-3是从健康橡胶树树根中分离获得的一株对真菌具有较强抗菌活性的内生细菌,有作为生物农药的潜力。【目的】解析菌株BS-3的基因组序列信息,以深入研究该菌株防病促生机制及挖掘次级代谢产物基因资源。【方法】采用第二代BGISEQ与第三代Pac Bio平台相结合的测序技术,对生防菌BS-3进行全基因组测序,并对测序数据进行基因组组装、基因预测与功能注释、共线性分析及次级代谢产物合成基因簇预测等。【结果】BS-3全基因组大小为3 870 130 bp,平均GC含量为46.88%,共编码4 161个基因;含有92个t RNA基因、28个r RNA、10个sRNA;含有122个串联重复序列、98个小卫星DNA、2个微卫星。在COG、GO、KEGG、NR和Swiss-Prot数据库分别注释到基因2 875、2 620、1 885、4 040和3 328个。同时,预测到BS-3中有10个次级代谢产物合成基因簇,编码表面活性素、丰原素、多烯类、儿茶酚型嗜铁素等抑菌物质。基因组测序数据提交至NCBI获得GenBank登录号为CP060384。【结论】为基因组层面上解析菌株BS-3具有良好防病效果的内在原因提供基础数据,为深入了解解淀粉芽孢杆菌次级代谢合成途径提供参考信息,对菌株BS-3后续相关研究具有重要意义。     

枯草芽胞杆菌基因组删减对异源酶表达影响的研究进展

枯草芽胞杆菌作为一种遗传背景清晰、基因编辑成熟的革兰氏阳性菌,是多种重要工业酶的生产宿主。随着转录组、蛋白质组、代谢组等多组学测序和分析技术的发展,通过合理设计简化枯草芽胞杆菌基因组,减少细胞内冗余的调控和代谢网络,使得细胞更精简且便于控制,展现出了枯草芽胞杆菌作为异源酶表达宿主细胞的应用潜力。本文简要综述了枯草芽胞杆菌基因组删减的研究进展,归纳了必需基因的确定方法,重点介绍了枯草芽胞杆菌通过删减基因组提升异源酶表达的研究进展及删减策略,充分展示了枯草芽胞杆菌基因组删减在构建异源酶表达底盘细胞中的重要作用。