SigB, SigC, and SigE from Myxococcus xanthus homologous to sigma32 are not required for heat shock response but for multicellular differentiation

Myxococcus xanthus has been known to have multiple sigma factors which are considered to play important roles in regulation of gene expression in development. A new gene encoding a putative sigma factor, sigE, was cloned by using a degenerate oligonucleotide corresponding to the conserved region 2.2 of M. xanthus SigA. In the 2.0-kb nucleotide sequence, an open reading frame consisting of 280 amino acid residues was identified. The amino acid sequence of SigE shows high similarity to heat shock sigma factors in bacteria. However, the sigE gene is not induced by heat shock and deletion of sigE does not affect production of heat shock proteins. SigE is expressed during both vegetative growth and fruiting body development. In the deletion mutant of the sigE gene fruiting body formation is initiated earlier and fewer spores are produced than in the parent strain. Interestingly, the deltasigE mutant shows defects in fruiting body formation at 37 degrees C. In addition to SigE, SigB and SigC show high sequence similarity to heat shock sigma factors. However, even if all three sigma factor genes are disrupted, heat shock proteins are still normally induced. A deltasigBdeltasigCdeltasigE triple deletion strain forms fruiting bodies earlier, but sporulats later than the parent strain. Spores from the triple deletion mutant are aberrant and their viability is less than 0.001% compared with that of the parent strain, suggesting that these sigma factors may have redundant functions in multicellular differentiation of M. xanthus.     

金针菇信息素信号通路基因在子实体发育过程中的差异表达

【背景】子实体是食用菌的主要商品部位,也是真菌生殖生长的重要结构,其发育受到多种信号途径的调控。【目的】以金针菇(Flammulina filiformis)为材料,对转录组和基因组数据的信息素信号通路基因进行分析获得差异表达的基因,并对其在菌丝生长和子实体发育过程中的表达情况进行分析,以期为研究食用菌子实体发育提供参考。【方法】基于已有的金针菇基因组数据,注释了金针菇信息素信号通路。进一步通过转录组测序鉴定了该通路中参与金针菇子实体发育的关键基因,并对关键基因进行荧光定量PCR验证。【结果】cdc24和ste12基因在子实体发育不同时期的5个样品(原基、伸长期菌柄、伸长期菌盖、成熟期菌柄和成熟期菌盖)中的表达具有显著差异,使用荧光定量PCR技术进行验证与上述结果一致。【结论】cdc24和ste12这2个关键基因可能参与了金针菇子实体发育过程中的组织分化调控机制。     

Effects of deletion of the gene for the development-specific protein S on differentiation in Myxococcus xanthus

A deletion mutation of the gene for protein S (tps), a development-specific protein of Myxococcus xanthus, was constructed. No significant differences in the process of fruiting body formation or the yield of myxospores were observed between mutant and wild-type cells. On the other hand, when the tps gene was deleted together with a 2.0-kilobase sequence including the ops gene immediately upstream of the tps gene, fruiting body formation was substantially delayed, and the yield of myxospores was reduced. These results indicate that protein S is not essential for differentiation of M. xanthus, whereas a gene product(s) coded from the sequence upstream of the tps gene appears to be required for normal fruiting body formation.     

Opposing developmental functions of Agrocybe aegerita galectin (AAL) during mycelia differentiation

Mycelia of basidiomycetes differentiating into fruiting body is a controlled developmental process, however the underlying molecular mechanism remains unknown. In previous work, a novel fungal Agrocybe aegerita galectin (AAL) was isolated from A. aegerita in our laboratory. AAL was shown to promote mycelial differentiation in A. aegerita and Auricularia polytricha, indicating that AAL might function as a conserved fruiting initiator during basidiomycete mycelia development. In the current work, we investigate the role of AAL in mycelia differentiation and fruiting body formation. First, the expression and localization of AAL in mycelia, primordium and fruiting body were assessed by Western blotting and immunohistochemistry. AAL was found to be ubiquitously expressed in the primordium and fruiting body but not in the mycelia. AAL facilitated mycelia congregation and promoted fruiting body production when AAL was applied on mycelia. At the same time, when AAL was spread on potato dextrose agar (PDA) medium prior to mycelia inoculation, mycelia exhibited slowed growth rates, resulting in mycelia cords formation and inhibition of fruiting body formation. The 5' regulatory sequence of aal was cloned by 'genome walking'. Here, we show that aal lack introns in the coding region and the upstream 740 bp sequence was characterized by the existence of core promoter elements, which included: two CCAAT boxes (-535/-280), a GC box (-145), a TATA box (-30) and a fungal leader intron within the 5' UTR. The identification of regulatory expression elements may provide an explanation to the stage-specific and high-level expression of aal during fruiting development.     

链霉菌次级代谢产物高产菌株的构建策略

随着基因测序技术的发展,人类获得了大量有关链霉菌次级代谢产物合成基因簇的信息,通过合理的构建策略可以激活其中的隐性基因簇或提高基因簇的表达水平,从而获得新的链霉菌次级代谢产物,或显著提高已知次级代谢产物的发酵水平。从基因表达调控、转座子突变、合成生物学方法、组学方法等四个方面,综述了提高链霉菌次级代谢产物产量的构建策略及其研究进展。     

C-factor: a cell-cell signaling protein required for fruiting body morphogenesis of M. xanthus

During fruiting body development, the product of the csgA gene is necessary for cellular aggregation, for spore differentiation, and for gene expression that is initiated after 6 hr of starvation. From nascent wild-type fruiting bodies we have purified a polypeptide of 17 kd called C-factor, which, at approximately 1 to 2 nM, restores normal development to csgA mutant cells. C-factor activity is not recovered from extracts of unstarved, growing cells or csgA mutant cells. The amino acid sequence from purified C-factor demonstrates that it is the product of the csgA gene. C-factor is active over a narrow range of concentration and has properties of a morphogenetic paracrine signal.     

Using single‐cell genomics to understand developmental processes and cell fate decisions

High‐throughput ‐omics techniques have revolutionised biology, allowing for thorough and unbiased characterisation of the molecular states of biological systems. However, cellular decision‐making is inherently a unicellular process to which “bulk” ‐omics techniques are poorly suited, as they capture ensemble averages of cell states. Recently developed single‐cell methods bridge this gap, allowing high‐throughput molecular surveys of individual cells. In this review, we cover core concepts of analysis of single‐cell gene expression data and highlight areas of developmental biology where single‐cell techniques have made important contributions. These include understanding of cell‐to‐cell heterogeneity, the tracing of differentiation pathways, quantification of gene expression from specific alleles, and the future directions of cell lineage tracing and spatial gene expression analysis.     

SigF, a new sigma factor required for a motility system of Myxococcus xanthus

A new sigma factor, SigF, was identified from the social and developmental bacterium Myxococcus xanthus. SigF is required for fruiting body formation during development as well as social motility during vegetative growth. Analysis of gene expression indicates that it is possible that the sigF gene is involved in regulation of an unidentified gene for social motility.     

糙皮侧耳生长发育过程中漆酶基因家族的表达研究

漆酶参与木质素的降解和食用菌的生长发育。为了明晰漆酶基因在糙皮侧耳生长发育过程中的作用,本文采用real-time PCR检测了11条漆酶基因及Lacc2的小亚基sspoxa3在糙皮侧耳生长发育不同阶段的表达。其中lacc6和sspoxa3在整个生长发育阶段表达量均较高;lacc12随着原基的分化和子实体的形成大量表达,与成菇过程有关。lacc4,lacc7和lacc11在原基分化期高表达,与原基的分化有关。lacc2,lacc3和lacc8在成熟子实体阶段表达量显著上升,与子实体的分化和成熟有关。