A Na+/H+ antiporter,K2-NhaD,improves salt and drought tolerance in cotton (Gossypium hirsutum L.)

Plant Molecular Biology - Overexpression of K2-NhaD in transgenic cotton resulted in phenotypes with strong salinity and drought tolerance in greenhouse and field experiments, increased expression...     

Metagenomic cloning and characterization of Na+/H+ antiporter genes taken from sediments in Chaerhan Salt Lake in China

A metagenomic library containing 8,000 clones was constructed by using genomic DNA obtained from Chaerhan Salt Lake in northwest China. Three Na⁺/H⁺ antiporters, C4-NhaG, C47-NhaG and C49-NhaG that grouped to the NhaG family, were screened and cloned from this metagenome by complementing Escherichia coli strain KNabc (ΔnhaA ΔnhaB ΔchaA) in medium containing 0.2 M NaCl. The three putative Na⁺/H⁺ antiporters were membrane proteins with 10, 11 and 11 transmembrane segments, respectively. They enabled E. coli KNabc to grow in medium containing 0.2–0.6 M Na⁺ or 7–14 mM Li⁺. Everted membrane vesicles prepared from E. coli KNabc cells carrying C49-NhaG exhibited Na⁺/H⁺ and Li⁺/H⁺ antiport activities.     

水稻蒸煮品质相关QTL定位及候选基因分析

挖掘与稻米蒸煮品质相关的数量性状基因座(quantitative trait locus, QTL)，分析候选基因，并通过遗传育种手段改良稻米蒸煮品质相关性状，可有效提升稻米的口感。以籼稻华占(Huazhan, HZ)、粳稻热研2号(Nekken2)及由其构建的120个重组自交系(recombinant inbred lines, RILs)群体为实验材料，测定成熟期稻米的糊化温度(gelatinization temperature, GT)、胶稠度(gel consistency, GC)和直链淀粉含量(amylose content, AC)。结合高密度分子遗传图谱进行QTL定位，共检测到26个与稻米蒸煮品质相关的QTLs (糊化温度相关位点1个、胶稠度相关位点13个、直链淀粉含量相关位点12个)，其中最高奇数的可能性(likelihood of odd, LOD)值达30.24。通过实时荧光定量PCR (quantitative real-time polymerase chain reaction, qRT-PCR)分析定位区间内候选基因的表达量，发现6个基因在双亲间的表达量差异显著，推测LOC_Os04g20270和LOC_Os11g40100的高表达可能会极大地提高稻米的胶稠度，而LOC_Os01g04920和LOC_Os02g17500的高表达以及LOC_Os03g02650和LOC_Os05g25840的低表达有助于降低直链淀粉含量。这些结果为培育优质水稻新品种奠定了分子基础，并为揭示稻米蒸煮品质的分子调控机制提供了重要的遗传资源。     

携带Paenibacillus polymyxa WLY78固氮基因簇(nif)的重组大肠杆菌Escherichia coli78-7转录组分析

[目的]来自Paenibacillus polymyxa WLY78的固氮基因簇（nifBHDKEfNXhesAnifV）可以转化入Escherichia coli中表达并使重组大肠杆菌合成有固氮活性的固氮酶。本文拟通过对重组大肠杆菌E.coli 78-7的转录组分析以提高其固氮能力。[方法]对固氮条件（无氧无NH₄⁺）和非固氮条件（空气和100 mmol/L NH₄⁺）培养的重组大肠杆菌E.coli 78-7进行转录组分析。[结果]nif基因在两种培养条件下显著表达,说明在重组大肠杆菌中可规避原菌中氧气和NH₄⁺对nif基因的负调控。对于固氮过程必需的非nif基因,如参与钼、硫、铁元素转运的mod、cys和feoAB,这些基因在两种培养条件下表达水平有差异。而参与铁硫簇合成的suf和isc基因簇在两条件下表达水平差异巨大。此外,参与氮代谢的基因在固氮条件下显著上调。[结论]重组大肠杆菌中与固氮相关的非nif基因在该菌的固氮过程中具有较大影响,本文对在异源宿主中调高固氮酶活性研究具有重要意义。     

Cloning of the Chlorothalonil-Degrading Gene Cluster and Evidence of Its Horizontal Transfer

Strain Ochrobactrum lupine TP-D1 was found to degrade chlorothalonil (TPN) to 4-hydroxy-chlorothalonil (TPN-OH). To clone the related degrading gene, genomic library of TP-D1 was constructed using Escherichia coli DH10B and two positive clones 889 and 838 were gained. However, no plasmid was detected in clone 889. And in clone 838, a 3494 bp fragment was cloned which contains a 984 bp hydrolytic dehalogenase (chd) gene and a 1926 bp insertion element IS-Olup. The insertion element contains a transposase coding region (1026 bp), an ATP-binding protein coding region (657 bp) and flanked by 20 bp inverted repeat sequences. Further isolation provided another seven TPN-degrading strains, they belonged to the genera of Pseudomonas sp., Achromobacter sp., Ochrobactrum sp., Ralstonia sp., and Lysobacter sp. PCR strategy showed that they all contain the same structure of chd gene and the upstream IS-Olup. Our evidences collectively suggest that chd gene may be disseminated through horizontal gene transfer based on phylogenetic analysis of the cluster and their host bacterial strains. At the same time, the chd gene was amplified from genome of the positive clone 889, which also provides some potential evidence to the gene horizontal transfer.     

Comparative Genomic Analysis of N2-Fixing and Non-N2-Fixing Paenibacillus spp.: Organization,Evolution and Expression of the Nitrogen Fixation Genes

We provide here a comparative genome analysis of 31 strains within the genus Paenibacillus including 11 new genomic sequences of N₂-fixing strains. The heterogeneity of the 31 genomes (15 N₂-fixing and 16 non-N₂-fixing Paenibacillus strains) was reflected in the large size of the shell genome, which makes up approximately 65.2% of the genes in pan genome. Large numbers of transposable elements might be related to the heterogeneity. We discovered that a minimal and compact nif cluster comprising nine genes nifB, nifH, nifD, nifK, nifE, nifN, nifX, hesA and nifV encoding Mo-nitrogenase is conserved in the 15 N₂-fixing strains. The nif cluster is under control of a σ⁷⁰-depedent promoter and possesses a GlnR/TnrA-binding site in the promoter. Suf system encoding [Fe–S] cluster is highly conserved in N₂-fixing and non-N₂-fixing strains. Furthermore, we demonstrate that the nif cluster enabled Escherichia coli JM109 to fix nitrogen. Phylogeny of the concatenated NifHDK sequences indicates that Paenibacillus and Frankia are sister groups. Phylogeny of the concatenated 275 single-copy core genes suggests that the ancestral Paenibacillus did not fix nitrogen. The N₂-fixing Paenibacillus strains were generated by acquiring the nif cluster via horizontal gene transfer (HGT) from a source related to Frankia. During the history of evolution, the nif cluster was lost, producing some non-N₂-fixing strains, and vnf encoding V-nitrogenase or anf encoding Fe-nitrogenase was acquired, causing further diversification of some strains. In addition, some N₂-fixing strains have additional nif and nif-like genes which may result from gene duplications. The evolution of nitrogen fixation in Paenibacillus involves a mix of gain, loss, HGT and duplication of nif/anf/vnf genes. This study not only reveals the organization and distribution of nitrogen fixation genes in Paenibacillus, but also provides insight into the complex evolutionary history of nitrogen fixation.     

利用响应面法优化固氮类芽孢杆菌Paenibacillus sp.1–49的发酵培养基（英文）北大核心CSCD

【目的】固氮类芽孢杆菌Paenibacillus sp.1–49是本实验室分离的具有潜在生物肥料价值的微生物菌剂。该菌在常见的培养基中不能高效生长(OD_(600)≤1)。本文拟优化发酵培养基成分以获得最大菌体生物量。【方法】运用响应面分析中的因素筛选实验设计和最陡爬坡实验以及中心复合设计法,对菌株的发酵培养基进行了响应面优化。【结果】利用响应面优化法最终确定了菌株最佳培养基:蔗糖36.22g/L,Tryptone 5.31 g/L,Yeast Extract 10.92 g/L,Mg SO_4 0.51 g/L,Na Cl 3.5 g/L,Na_2Mo O_4 0.02 g/L,FeS O_4 0.02 g/L。通过摇瓶发酵后菌体OD600=10.280,达到预测值的94.6%。【结论】利用响应面法成功地对Paenibacillus sp.1-49的发酵培养基进行了优化,为该菌株和其他类芽孢杆菌的大规模发酵提供了参考。     

Pyrophosphate: fructose-6-phosphate 1-phosphotransferase (PFP) regulates carbon metabolism during grain filling in rice

Key message

Decreased PFPase activity in rice perturbs the equilibration of carbon metabolism during grain filling but has no visible phenotypic effects during the vegetative and reproductive growth stages.

Abstract

Starch is a primary energy reserve for various metabolic processes in plant. Despite much advance has been achieved in pathways involved in starch biosynthesis, information was still lacked for precise regulation related to carbon metabolism during seed filling in rice (Oryza sativa). The objective of this study was to identify and characterize new gene associated with carbon metabolism during grain filling. By screening our chemical mutant pool, two allelic mutants exhibiting floury endosperm were isolated. No visible phenotypic defects were observed during both the vegetative and reproductive growth stages, except for the floury-like endosperm of grains with significantly reduced kernel thickness, 1000-grain weight and total starch content. Map-based cloning revealed that the mutant phenotypes were controlled by a gene encoding pyrophosphate: fructose-6-phosphate 1-phosphotransferase (PFP, EC 2.7.1.90) β subunit (PFP_β), which catalyzes reversible interconversion between fructose-6-phosphate and fructose-1, 6-bisphosphate. The identity of PFP _β was further confirmed by a genetic complementation test. Subcellular analysis demonstrated that PFPβ was localized in cytoplasm. Quantitative PCR and histochemical staining indicated PFP _β was ubiquitously expressed in various tissues. Furthermore, we found PFP _β could express in both the early and late phases of starch accumulation during grain filling and decreased activity of PFP _β in pfp mutants resulted in compromised carbon metabolism with increased soluble sugar contents and unfavorable starch biosynthesis. Our results highlight PFP_β functions in modulating carbon metabolism during grain filling stage.