鼠伤寒沙门菌VI型分泌系统效应因子Rhs生物学特性分析

【背景】细菌的Ⅵ型分泌系统作为杀死真核捕食者或原核竞争对手的“武器”,其杀伤作用是通过释放有毒物质即效应因子来实现。尽管已发现一些效应因子,但大多数效应因子的功能仍然未知。【目的】研究rhs基因编码的效应因子Rhs对鼠伤寒沙门菌生物学特性的影响。【方法】利用Red同源重组的方法构建鼠伤寒沙门菌rhs基因缺失株及相应的基因回补株。通过试验分析比较亲本株与缺失株、回补株在生化特性、生物被膜形成、耐药性、细菌间竞争、抗血清补体杀菌能力、组织载菌量及感染小鼠后炎症因子IL-18、IL-1β释放量上的差异。【结果】效应因子Rhs不影响鼠伤寒沙门菌的生化代谢、生物被膜形成、耐药性及抗血清补体杀菌能力。细菌种间竞争试验中,基因缺失株CVCC541Δrhs1、CVCC541Δrhs2和CVCC541Δrhs1-2的竞争指数(competition index,CI)值分别为0.85、0.77和0.87,毒力均被轻度致弱。体内组织载菌量试验中,CVCC541Δrhs1、CVCC541Δrhs2和CVCC541Δrhs1-2基因缺失株在小鼠肝脏和脾脏中的细菌数均较亲本株明显下降(P<0.05);机体...     

Genetic control of hexokinase variation in insects

Hexokinase variation in insects appears to be under the control of a single locus in some species and under multiple-locus control in others. It is often difficult to distinguish the number of loci controlling hexokinase expression. Analysis of hexokinase electrophoretic patterns in six species of mosquitoes and five species of crickets, as well as a review of hexokinase variation in other insect species, is used to emphasize the importance of interspecific comparisons when making genetic inferences. Evidence is provided which adds support for multiple hexokinase loci in dipterans. Hexokinase control by multiple loci may be difficult to determine in some species because of tight linkage, disequilibrium, and/or posttranslational modification.This work was supported by NIH Grant AI 11132-09, NSF Grant DEB-7811188, and Yale Sesil Anonymous Funds.     

Duplicated chromosome segments in maize (Zea mays L.): further evidence from hexokinase isozymes

Summary The genetic control of hexokinase isozymes (ATP: d-hexose-6-phosphotransferase, E.C. 2.7.7.1, HEX) in maize (Zea mays L.) was studied by starch gel electrophoresis. Genetic analysis of a large number of inbred lines and crosses indicates that the major isozymes observed are encoded by two nuclear loci, designated Hex1 and Hex2. Five active allozymes and one null variant are associated with Hex1, while Hex2 has nine active alleles in addition to a null variant. Alleles at both loci govern the presence of single bands, with no intragenic or intergenic heteromers visible, suggesting that maize HEX's are active as monomers. Organelle preparations demonstrate that the products of both loci are cytosolic. All alleles, including the nulls, segregate normally in crosses. Vigorous and fertile plants were synthesized that were homozygous for null alleles at both loci, suggesting that other hexosephosphorylating enzymes exist in maize that are undetected with our assay conditions. Linkage analyses and crosses with B-A translocation stocks place Hex1 on the short arm of chromosome 3, 27 centimorgans from Pgd2 (phosphogluconate dehydrogenase) and Hex2 on the long arm of chromosome 6, approximately 45 centimorgans from Pgd1. It is suggested that the parallel linkages among these two pairs of duplicated genes reflects an evolutionary history involving chromosome segment duplication or polyploidy.Paper No. 10170 of the Journal Series of the North Carolina Agricultural Research Service, Raleigh, NC     

尖孢镰刀菌亚麻专化型Folprp4基因参与调控菌丝生长和分生孢子发生

目的: 通过对尖孢镰刀菌中Folprp4基因的鉴定,揭示其在尖孢镰刀菌中的功能及致病相关性。方法: 基于同源重组原理,根据测定出的Folprp4基因序列,应用Split-Marker重组技术构建含有潮霉素抗性基因(hph)的基因缺失盒。将基因缺失盒经PEG介导转化到野生型原生质体中,在含有潮霉素B的TCC培养基上筛选转化子,通过PCR正负筛查获得Folprp4基因缺失突变株(ΔFolprp4)。构建含有Folprp4基因的载体pZDH1,并将其转化到敲除突变体中进行互补测验。结果: 与野生型(hm)和异位插入突变体(ecFolprp4)相比,敲除突变体菌丝生长受到严重阻碍,当野生型和异位插入突变体长满整个平板时,敲除突变体菌落呈小点状。敲除突变体的另一个显著变化是ΔFolprp4的分生孢子产量显著下降。侵染实验表明,ΔFolprp4对亚麻幼苗的毒力显著降低。互补实验表明,该互补载体的回复子(Folprp4-C)在菌落形态、生长速率、分生孢子产量和毒力方面均恢复到了野生型菌株。结论: Folprp4基因与尖孢镰刀菌的菌丝生长、分生孢子发生和致病性有关。     

Evolutionary genomics analysis reveals gene expansion and functional diversity of arylalkylamine N-acetyltransferases in the Culicinae subfamily of mosquitoes

Arylalkylamine N-acetyltransferase (aaNAT), considered a potential new insecticide target, catalyzes the acetylation of arylalkylamine substrates such as serotonin and dopamine and, hence, mediates diverse functions in insects. However, the origin of insect aaNATs (iaaNATs) and the evolutionary process that generates multiple aaNATs in mosquitoes remain largely unknown. Here, we have analyzed the genomes of 33 species to explore and expand our understanding of the molecular evolution of this gene family in detail. We show that aaNAT orthologs are present in Bacteria, Cephalochordata, Chondrichthyes, Cnidaria, Crustacea, Mammalia, Placozoa, and Teleoste, as well as those from a number of insects, but are absent in some species of Annelida, Echinozoa, and Mollusca as well as Arachnida. Particularly, more than 10 aaNATs were detected in the Culicinae subfamily of mosquitoes. Molecular evolutionary analysis of aaNAT/aaNAT-like genes in mosquitoes reveals that tandem duplication events led to gene expansion in the Culicinae subfamily of mosquitoes more than 190 million years ago. Further selection analysis demonstrates that mosquito aaNATs evolved under strongly positive pressures that generated functional diversity following gene duplication events. Overall, this study may provide novel insights into the molecular evolution of the aaNAT family in mosquitoes.     

Preferential retention of the slowly evolving gene in pairs of duplicates in angiosperm genomes

Gene duplication provides raw material for functional innovation, but gene duplicability varies considerably. Previous studies have found widespread asymmetrical sequence evolution between paralogs. However, it remains unknown whether the rate of evolution among paralogs affects their propensity of being retained after another round of whole-genome duplication (WGD). In this study, we investigated gene groups that have experienced two successive WGDs to determine which of two older duplicates with different evolutionary rates was more likely to retain both younger duplicates. To uncouple the measurement of evolutionary rates from any assignment of duplicate or singleton status, we measured the evolutionary rates of singleton genes in out-lineages but classified these singleton genes according to whether they are retained or not in a crown group of species. We found that genes that retained younger duplicates in the crown group of genomes were more constrained prior to the younger duplication event than those that failed to leave duplicates. In addition, we also found that the retained clades have more genes in out-lineages. Subsequent analyses showed that genes in the retained clades were expressed more broadly and highly than genes in the singleton clades. We concluded that the set of repeatedly retained genes after two WGDs is biased toward slowly evolving genes in angiosperms, suggesting that the potential of genes for both functional conservation and divergence likely affects their propensity of being retained after WGD in angiosperms.     

Speciation by genome duplication: Repeated origins and genomic composition of the recently formed allopolyploid species Mimulus peregrinus

Whole genome duplication (polyploidization) is a mechanism of “instantaneous” species formation that has played a major role in the evolutionary history of plants. Much of what we know about the early evolution of polyploids is based upon studies of a handful of recently formed species. A new polyploid hybrid (allopolyploid) species Mimulus peregrinus, formed within the last 140 years, was recently discovered on the Scottish mainland and corroborated by chromosome counts. Here, using targeted, high‐depth sequencing of 1200 genic regions, we confirm the parental origins of this new species from M. x robertsii, a sterile triploid hybrid between the two introduced species M. guttatus and M. luteus that are naturalized and widespread in the United Kingdom. We also report a new population of M. peregrinus on the Orkney Islands and demonstrate that populations on the Scottish mainland and Orkney Islands arose independently via genome duplication from local populations of M. x robertsii. Our data raise the possibility that some alleles are already being lost in the evolving M. peregrinus genomes. The recent origins of a new species of the ecological model genus Mimulus via allopolyploidization provide a powerful opportunity to explore the early stages of hybridization and genome duplication in naturally evolved lineages.     

Molecular evolution and expression of the CRAL_TRIO protein family in insects

CRAL_TRIO domain proteins are known to bind small lipophilic molecules such as retinal, inositol and Vitamin E and include such gene family members as PINTA, α-tocopherol transfer (ATT) proteins, retinoid binding proteins, and clavesins. In insects, very little is known about either the molecular evolution of this family of proteins or their ligand specificity. Here we characterize insect CRAL_TRIO domain proteins and present the first insect CRAL_TRIO protein phylogeny constructed by performing reciprocal BLAST searches of the reference genomes of Drosophila melanogaster, Anopheles gambiae, Apis mellifera, Tribolium castaneum, Bombyx mori, Manduca sexta and Danaus plexippus. We find several highly conserved amino acid residues in the CRAL_TRIO domain-containing genes across insects and a gene expansion resulting in more than twice as many gene family members in lepidopterans than in other surveyed insect species, but no lepidopteran homolog of the PINTA gene in Drosophila. In addition, we examined the expression pattern of CRAL_TRIO domain genes in Manduca sexta heads using RNA-Seq data. Of the 42 gene family members found in the M. sexta reference genome, we found 30 expressed in the head tissue with similar expression profiles between males and females. Our results suggest this gene family underwent a large expansion in Lepidoptera, making the lepidopteran CRAL_TRIO domain family distinct from other holometabolous insect lineages.     

A 40-bp insertion/deletion polymorphism in the constitutive promoter of MDM2 confers risk for hepatocellular carcinoma in a Chinese population

The pathogenesis of HCC is a multistage process with the involvement of genetic factors. The aim of the present study is to investigate the possible association between a 40-bp insertion/deletion polymorphism (indel) at constitutive promoter of MDM2 and risk of hepatocellular carcinoma (HCC) in a Chinese population. Using 420 HCC patients and 423 control subjects, we genotyped the indel polymorphism (rs3730485) using polymerase chain reaction method. Logistic regression was used to analyze the association between the polymorphism and HCC susceptibility. Under co-dominant model, we found that the ins/del and del/del genotype of indel was associated with a significantly increased risk of HCC compared with its homozygote ins/ins (OR=1.39, 95%C.I.=1.03-1.87; OR=1.68, 95%C.I.=1.03-2.73, respectively). Presence of 40-bp deletion allele of MDM2 seemed to confer higher risk for HCC when compared with non-carriers (OR=1.30, 95%C.I.=1.06-1.60, P=0.011). Further stratification analysis showed that this association was more pronounced in patients with a family history of HCC, early tumor stage and higher serum alpha-fetoprotein (AFP). These findings indicated that the MDM2 indel polymorphism may be a genetic modifier for developing HCC in Chinese population.