Genome-wide identification and analysis of the U-box family of E3 ligases in grapevine

E3 ubiquitin ligases play essential roles in determining the specificity of ubiquitination and subsequent protein degradation. The plant U-box (PUB) family of E3 ligases has been implicated in biotic and abiotic stress signaling and developmental events in various species. A comprehensive bioinformatics analysis identified 56 PUB genes in the grapevine (Vitis vinifera L.) genome. Based on conserved motifs, the VvPUB family was classified into seven subclasses. Expansion of this family was driven by chromosomal, segmental, and tandem duplications. Microarray expression profiling revealed that three PUB genes were preferentially expressed in pollen, four in leaf, and five in root. Moreover, a large number of PUB genes were differentially expressed under abiotic stresses and eight PUB genes likely participated in defense against powdery mildew. The microarray expression data were verified by RT-qPCR. Genome-wide identification of VvPUB genes and examination of their expression will give insights into the functions of U-box genes in grapevine.     

Synergistic repression of the embryonic programme by SET DOMAIN GROUP 8 and EMBRYONIC FLOWER 2 in Arabidopsis seedlings

The seed maturation programme occurs only during the late phase of embryo development, and repression of the maturation genes is pivotal for seedling development. However, mechanisms that repress the expression of this programme in vegetative tissues are not well understood. A genetic screen was performed for mutants that express maturation genes in leaves. Here, it is shown that mutations affecting SDG8 (SET DOMAIN GROUP 8), a putative histone methyltransferase, cause ectopic expression of a subset of maturation genes in leaves. Further, to investigate the relationship between SDG8 and the Polycomb Group (PcG) proteins, which are known to repress many developmentally important genes including seed maturation genes, double mutants were made and formation of somatic embryos was observed on mutant seedlings with mutations in both SDG8 and EMF2 (EMBRYONIC FLOWER 2). Analysis of histone methylation status at the chromatin sites of a number of maturation loci revealed a synergistic effect of emf2 and sdg8 on the deposition of the active histone mark which is the trimethylation of Lys4 on histone 3 (H3K4me3). This is consistent with high expression of these genes and formation of somatic embryos in the emf2 sdg8 double mutants. Interestingly, a double mutant of sdg8 and vrn2 (vernalization2), a paralogue of EMF2, grew and developed normally to maturity. These observations demonstrate a functional cooperative interplay between SDG8 and an EMF2-containing PcG complex in maintaining vegetative cell identity by repressing seed genes to promote seedling development. The work also indicates the functional specificities of PcG complexes in Arabidopsis.     

Arabidopsis histone methyltransferase SET DOMAIN GROUP2 is required for regulation of various hormone responsive genes

Histone modifications are known to play important roles in plant development through epigenetic regulation of gene expression. How these modifications regulate downstream targets in response to various environmental cues and developmental stimuli is still largely unknown. Here, we provide evidence that Arabidopsis histone H3K4 methyltransferase SET DOMAIN GROUP2 (SDG2) is required for full activation of hormone responsive genes upon hormone treatment. The pleiotropic phenotypes of sdg2 were closely related to those of auxin deficient mutants and RNA analysis revealed that expression of early hormone responsive genes was significantly reduced in sdg2-5. By ChIP analyses we found that H3K4 tri-methylations on chromatin region of hormone responsive genes such as SAUR27, KIN1 and GASA6 were enriched in WT upon hormone treatments whereas these enrichments were largely abolished in sdg2-5. After hormone treatment, chromatin regions of responsive genes that accumulated H3K4me3 in WT overlapped with those displaying decreased H3K4me3 levels in sdg2-5. Histone H3K4 di-methylation levels on tested genes were increased rather than decreased in sdg2-5, suggesting that SDG2 mediates transition of H3K4me2 to H3K4me3. Taken together, we conclude that the SDG2 activity is required to regulate the expression of hormone responsive genes via histone H3K4 tri-methylation.     

Genome-wide analysis of the MATE gene family in potato

Molecular Biology Reports - The multidrug and toxic compound extrusion (MATE) protein family is a newly discovered family of secondary transporters that extrude metabolic waste and a variety of...     

蒺藜苜蓿多聚半乳糖醛酸酶基因家族的全基因组分析

多聚半乳糖醛酸酶(Polygalacturonases,PGs)是一种果胶水解酶,参与果实成熟、器官脱落、花粉成熟等多个植物发育过程。采用相似性比对和结构域搜索方法,从蒺藜苜蓿基因组中共鉴定出74个MtPG基因。根据系统进化关系将其分为6个亚家族,分别包含9、7、4、11,18和25个MtPG基因家族成员。染色体定位分析发现,MtPG基因在蒺藜苜蓿的8条染色体上呈现不均匀分布,每条染色体上分布有2-16个MtPG基因;同时,基因组复制分析结果显示,蒺藜苜蓿的PG基因家族成员之间存在大量的基因复制。最后,通过蒺藜苜蓿的高通量测序数据分析发现,MtPG基因家族广泛地在根部、结瘤、叶片、芽,心皮和花等组织中表达。根据它们在不同组织中表达水平,将31个MtPG基因聚类为4组,分别探讨了四组基因在蒺藜苜蓿组织器官分化中表达模式,重点解析了它们在花器官发育以及根部组织分化中可能的调控机制,这将为进一步研究蒺藜苜蓿MtPG基因家族成员的基因功能提供了理论基础。     

Genome-wide analysis of the RING finger gene family in apple

The RING finger protein family plays a crucial role in plant growth and development and in response to biotic and abiotic stresses. However, no detailed information concerning this family is available for apple (Malus × domestica L. Borkh) due to the limited information on whole genome sequences. In this study, 688 RING domains in 663 predicted proteins were identified in apple. Based on the spacing between metal ligands or substitutions at one or more of the metal ligand positions, nine RING types were identified: RING-H2, RING-HC, RING-C2, RING-v, RING-D, RING-S/T, RING-G, RING-mH2, and RING-mHC, in which the first seven types were described previously in Arabidopsis, while the latter two were newly identified in apple. Proteins containing RING finger motifs were further classified into 57 groups according to the different known or unknown domains outside the RING domains. A total of 643 retrieved proteins appear to be distributed over all 17 linkage groups with different densities. Microarray and expressed sequence tag data revealed that only a few of these RING finger proteins may be involved in fruit development. As a first step towards genome-wide analyses of the RING-containing genes in apple, our results provide valuable information for understanding the classification and putative functions of the RING finger gene family in higher plants.     

拟南芥和水稻SET结构域基因家族全基因组鉴定、分类和表达

ET(Su(var), Enhancer of zeste (E(z)), and Trithorax)结构域基因家族是一组含有保守SET结构域的蛋白的统称, 它们参与蛋白甲基化, 影响染色体结构, 并且调控基因表达, 在植物发育中起着重要的作用。分析拟南芥和水稻中SET结构域基因家族进化关系, 对研究这一基因家族中各成员的功能有着重要的意义。我们系统地鉴定了47个拟南芥(Arabidopsis thaliana)和43个水稻(Orysa sativa japonica cultivar Nipponbare)的SET结构域基因, 染色体定位和基因复制分析表明SET结构域基因扩增是由片段复制和反转录引起的, 根据这些结构域差异和系统发育分析把拟南芥和水稻的SET结构域基因划分成5个亚家族。通过分析SET结构域基因家族在拟南芥和水稻各个发育阶段的表达谱, 发现SET结构域基因绝大部分至少在一个组织中表达; 大部分在花和花粉中高表达; 一些SET结构域基因在某些组织中有特异的表达模式, 表明与组织发育有密切的关系。在拟南芥和水稻中分别找到了4个差异表达基因。拟南芥4个差异基因都在花粉管高表达, 水稻4个差异基因有3个在雄性花蕊中高表达, 另一个在幼穗中高表达。     

Genome-wide analysis of the invertase gene family from maize

Key message

The recent release of the maize genome (AGPv4) contains annotation errors of invertase genes and therefore the enzymes are bestly curated manually at the protein level in a comprehensible fashion

Abstract

The synthesis, transport and degradation of sucrose are determining factors for biomass allocation and yield of crop plants. Invertase (INV) is a key enzyme of carbon metabolism in both source and sink tissues. Current releases of the maize genome correctly annotates only two vacuolar invertases (ivr1 and ivr2) and four cell wall invertases (incw1, incw2 (mn1), incw3, and incw4). Our comprehensive survey identified 21 INV isogenes for which we propose a standard nomenclature grouped phylogenetically by amino acid similarity: three vacuolar (INVVR), eight cell wall (INVCW), and ten alkaline/neutral (INVAN) isogenes which form separate dendogram branches due to distinct molecular features. The acidic enzymes were curated for the presence of the DPN tripeptide which is coded by one of the smallest exons reported in plants. Particular attention was placed on the molecular role of INV in vascular tissues such as the nodes, internodes, leaf sheath, husk leaves and roots. We report the expression profile of most members of the maize INV family in nine tissues in two developmental stages, R1 and R3. INVCW7, INVVR2, INVAN8, INVAN9, INVAN10, and INVAN3 displayed the highest absolute expressions in most tissues. INVVR3, INVCW5, INVCW8, and INVAN1 showed low mRNA levels. Expressions of most INVs were repressed from stage R1 to R3, except for INVCW7 which increased significantly in all tissues after flowering. The mRNA levels of INVCW7 in the vegetative stem correlated with a higher transport rate of assimilates from leaves to the cob which led to starch accumulation and growth of the female reproductive organs.

     

The trxG family histone methyltransferase SET DOMAIN GROUP 26 promotes flowering via a distinctive genetic pathway

Histone methylation is a major component in numerous processes such as determination of flowering time, which is fine‐tuned by multiple genetic pathways that integrate both endogenous and environmental signals. Previous studies identified SET DOMAIN GROUP 26 (SDG26) as a histone methyltransferase involved in the activation of flowering, as loss of function of SDG26 caused a late‐flowering phenotype in Arabidopsis thaliana. However, the SDG26 function and the underlying molecular mechanism remain largely unknown. In this study, we undertook a genetic analysis by combining the sdg26 mutant with mutants of other histone methylation enzymes, including the methyltransferase mutants Arabidopsis trithorax1 (atx1), sdg25 and curly leaf (clf), as well as the demethylase double mutant lsd1‐like1 lsd1‐like2 (ldl1 ldl2). We found that the early‐flowering mutants sdg25, atx1 and clf interact antagonistically with the late‐flowering mutant sdg26, whereas the late‐flowering mutant ldl1 ldl2 interacts synergistically with sdg26. Based on microarray analysis, we observed weak overlaps in the genes that were differentially expressed between sdg26 and the other mutants. Our analyses of the chromatin of flowering genes revealed that the SDG26 protein binds at the key flowering integrator SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1/AGAMOUS‐LIKE 20 (SOC1/AGL20), and is required for histone H3 lysine 4 trimethylation (H3K4me3) and histone H3 lysine 36 trimethylation (H3K36me3) at this locus. Together, our results indicate that SDG26 promotes flowering time through a distinctive genetic pathway, and that loss of function of SDG26 causes a decrease in H3K4me3 and H3K36me3 at its target gene SOC1, leading to repression of this gene and the late‐flowering phenotype.     

玉米Dof转录因子家族基因的全基因组分析

Dof转录因子家族在植物生长发育和基因表达调控过程中具有重要的作用,本文利用公布的玉米基因组草图数据,利用生物信息学方法对玉米全基因组Dof基因的结构、系统进化关系和保守motif进行了分析。结果表明:玉米中共有18个Dof类型基因,命名为ZmDof1-ZmDof18,其蛋白质长度在211aa至618aa之间,通过系统进化树分析后,18个Dof基因可以明显的分为三类,此外玉米Dof基因的数目远远小于水稻和拟南芥,基因复制现象较少是玉米Dof基因数量较少的原因之一,MEME分析证实了Dof基因含有三个保守的motif。对玉米Dof类型基因的系统分析,将有助于玉米Dof类型基因的克隆和功能的进一步研究。