Cloning,Expression and Purification of an Acetoacetyl CoA Thiolase from Sunflower Cotyledon

Thiolase I and II coexist as part of the glyoxysomal β-oxidation system in sunflower (Helianthus annuus L.) cotyledons, the only system shown to have both forms. The importance of thiolases can be underscored not only by their ubiquity, but also by their involvement in a wide variety of processes in plants, animals and bacteria. Here we describe the cloning, expression and purification of acetoacetyl CoA thiolase (AACT) in enzymatically active form. Use of the extensive amount of sequence information from the databases facilitated the efficient generation of the gene-specific primers used in the RACE protocols. The recombinant AACT (1233 bp) shares 75% similarity with other plant AACTs. Comparison of specific activity of this recombinant AACT to a previously reported enzyme purified from primary sunflower cotyledon tissue was very similar (263 nkat/mg protein vs 220 nkat/mg protein, respectively). Combining the most pure fractions from the affinity column, the enzyme was purified 88-fold with a 55% yield of the enzymatically active, 47 kDa AACT.     

NtGNL1基因通过调控囊泡运输影响烟草根毛的极性生长

极性生长是植物生长发育中的常见现象,但囊泡运输与极性生长的关系还未完全明确。花粉管和根毛是植物细胞极性生长的典型模式。早期研究显示NtGNL1(Nicotiana tabacum GNOM-LIKE 1)通过调节囊泡的后高尔基体转运来影响烟草的花粉管生长。本文以NtGNL1 RNAi转基因植株为材料,研究NtGNL1基因在根毛生长中的作用。结果表明,NtGNL1 RNAi转基因植株的根毛生长明显滞后于野生型,且其根毛出现膨大、弯折、扭曲等形态,与NtGNL1 RNAi转基因植株的花粉管异常形态类似。q RT-PCR检测RNAi转基因株系根毛中PIN1、PIN2、GL2、ROP6、RHD6基因的m RNA表达量,显示PIN2和GL2的表达量显著下调,PIN1、ROP6和RHD6的表达量变化不明显。FM4-64染色表明烟草根表皮细胞和根毛的囊泡分布都受到影响,即NtGNL1基因也影响根毛中的囊泡运输。BFA处理加剧了囊泡的聚集程度,提示根毛尖端还存在其它对BFA敏感并调控囊泡运输的基因。以上证据显示,NtGNL1基因通过囊泡运输途径影响烟草根毛的极性生长,NtGNL1基因的表达下调也影响了PIN2和GL2的表达,从而间接影响根毛的极性生长。     

The ABC Transporter ABCG1 Is Required for Suberin Formation in Potato Tuber Periderm

The lipid biopolymer suberin plays a major role as a barrier both at plant-environment interfaces and in internal tissues, restricting water and nutrient transport. In potato (Solanum tuberosum), tuber integrity is dependent on suberized periderm. Using microarray analyses, we identified ABCG1, encoding an ABC transporter, as a gene responsive to the pathogen-associated molecular pattern Pep-13. Further analyses revealed that ABCG1 is expressed in roots and tuber periderm, as well as in wounded leaves. Transgenic ABCG1-RNAi potato plants with downregulated expression of ABCG1 display major alterations in both root and tuber morphology, whereas the aerial part of the ABCG1-RNAi plants appear normal. The tuber periderm and root exodermis show reduced suberin staining and disorganized cell layers. Metabolite analyses revealed reduction of esterified suberin components and hyperaccumulation of putative suberin precursors in the tuber periderm of RNA interference plants, suggesting that ABCG1 is required for the export of suberin components.     

Brca2 is involved in meiosis in Arabidopsis thaliana as suggested by its interaction with Dmc1

Two BRCA2-like sequences are present in the Arabidopsis genome. Both genes are expressed in flower buds and encode nearly identical proteins, which contain four BRC motifs. In a yeast two-hybrid assay, the Arabidopsis Brca2 proteins interact with Rad51 and Dmc1. RNAi constructs aimed at silencing the BRCA2 genes at meiosis triggered a reproducible sterility phenotype, which was associated with dramatic meiosis alterations. We obtained the same phenotype upon introduction of RNAi constructs aimed at silencing the RAD51 gene at meiosis in dmc1 mutant plants. The meiotic figures we observed strongly suggest that homologous recombination is highly disturbed in these meiotic cells, leaving aberrant recombination events to repair the meiotic double-strand breaks. The 'brca2' meiotic phenotype was eliminated in spo11 mutant plants. Our experiments point to an essential role of Brca2 at meiosis in Arabidopsis. We also propose a role for Rad51 in the dmc1 context.     

NtGNL1 is involved in embryonic cell division patterning, root elongation, and pollen tube growth in tobacco

The function of the ARF-GEF family has drawn great attention recently, especially GNOM and GNL1, owing to their important role in plant development. A homolog of GBF was identified in Nicotiana tabacum, named NtGNL1, which is ubiquitously expressed throughout the tobacco life cycle. In NtGNL1 RNAi plants, irregular orientation of cell division and asynchronous cell development during early embryogenesis disrupted the symmetry of the developing embryo. In addition, root growth in transgenic lines was significantly slower than that in wild-type plants, although the structure of the root tip was largely intact. Pollen germination and pollen tube growth were also inhibited in the transgenic lines, and the tip of the pollen tube presented various aberrant morphologies in one of the transgenic lines. The phenotypes of different NtGNL1 RNAi transgenic lines suggest that the NtGNL1 is likely to be involved not only in embryogenesis and postembryonic development, but also in sexual reproduction; thus, NtGNL1 may play multiple and critical roles in plant development.     

A PIN1 family gene, OsPIN1, involved in auxin-dependent adventitious root emergence and tillering in rice

Auxin transport affects a variety of important growth and developmental processes in plants, including the regulation of shoot and root branching. The asymmetrical localization of auxin influx and efflux carriers within the plasma membrane establishes the auxin gradient and facilitates its transport. REH1, a rice EIR1 (Arabidopsis ethylene insensitive root 1)-like gene, is a putative auxin efflux carrier. Phylogenetic analysis of 32 members of the PIN family, taken from across different species, showed that in terms of evolutionary relationship, OsPIN1 is closer to the PIN1 family than to the PIN2 family. It is, therefore, renamed as OsPIN1 in this study. OsPIN1 was expressed in the vascular tissues and root primordial in a manner similar to AtPIN1. Adventitious root emergence and development were significantly inhibited in the OsPIN1 RNA interference (RNAi) transgenic plants, which was similar to the phenotype of NPA (N-1-naphthylphalamic acid, an auxin-transport inhibitor)-treated wild-type plants. alpha-naphthylacetic acid (alpha-NAA) treatment was able to rescue the mutated phenotypes occurring in the RNAi plants. Overexpression or suppression of the OsPIN1 expression through a transgenic approach resulted in changes of tiller numbers and shoot/root ratio. Taken together, these data suggest that OsPIN1 plays an important role in auxin-dependent adventitious root emergence and tillering.     

The role of Somatic embryogenesis receptor-like kinase 1 in controlling pollen production of the Gossypium anther

In flowering plants, male gametophytes are generated in anthers from microsporocytes. However, more evidence is needed to reveal the genetic mechanisms which regulate the differentiation and interaction of these highly specialized cells in anthers. Here we report the characterization of a series of male-sterile cotton (Gossypium hirsutum) mutants, including mutants with normal fertility, semi-sterility and complete sterility. These mutants are forms of transgenic cotton containing RNAi vectors with partial cDNA fragments of GhSERK1. The GhSERK1 gene encodes a putative leucine-rich repeat receptor protein kinase (LRR-RLK), and generally has 11 domains. In previous research, we found plants containing GhSERK1 produce an abundance of male reproductive tissue. In this paper, three RNAi constructs were designed separately to analyze its function in anther. After the three RNAi vectors were transformed into the cotton, transgenic plants with the specialized fragment exhibited normal fertility or the pollen energy decreased slightly, as ones with the homologous fragments exhibited various degrees of male sterility with different expression levels of GhSERK1 mRNA. In conclusion, for the transgenic plants with conserved fragments, lower expression levels of GhSERK1 mRNA were in transgenic plants, and a higher degree of male sterility was observed. Taking together, these findings demonstrate the GhSERK1 gene has a role in the development of anthers, especially in the formation of pollen grains. Also, we infer there must be another homolog of GhSERK1 in cotton, and both of GhSERK1 and its homolog function redundantly as important control points in controlling anther pollen production.     

Large-scale analysis of gene function in Caenorhabditis elegans by high-throughput RNAi

Genome-wide analysis of gene function is essential for the post-genome era, and development of efficient and economical technology suitable for it has been in demand. Here we report a large-scale inactivation of the expressed genes in the nematode Caenorhabditis elegans. For this purpose, we have established a high-throughput "RNAi-by-soaking" methodology by modifying the conventional RNAi method [1, 2]. A set of tag-sequenced, nonredundant cDNAs corresponding to approximately 10,000 genes [3] (representing half of the predicted genes [4]) was used for the systematic RNAi analysis. We have processed approximately 2500 genes to date. In development, 27% of them showed detectable phenotypes, such as embryonic lethality, post-embryonic lethality, sterility, and morphological abnormality. Of these, we analyzed the phenotypes of F1 sterility in detail, and we have identified 24 genes that might play important roles in germline development. Combined with the ongoing analysis of expression patterns of these cDNAs [3, 5], the functional information obtained in this work will provide a starting point for the further analysis of each gene. Another finding from this screening is that the incidence of essential genes is significantly lower in the X chromosome than in the autosomes.     

Arabidopsis SOMATIC EMBRYOGENESIS RECEPTOR KINASES1 and 2 are essential for tapetum development and microspore maturation

Among the >200 members of the leucine-rich repeat receptor kinase family in Arabidopsis thaliana, only a few have been functionally characterized. Here, we report a critical function in anther development for the SOMATIC EMBRYOGENESIS RECEPTOR KINASE1 (SERK1) and SERK2 genes. Both SERK1 and SERK2 are expressed widely in locules until stage 6 anthers and are more concentrated in the tapetal cell layer later. Whereas serk1 and serk2 single insertion mutants did not show developmental phenotypes, serk1 serk2 double mutants were not able to produce seeds because of a lack of pollen development in mutant anthers. In young buds, double mutant anthers developed normally, but serk1 serk2 microsporangia produced more sporogenous cells that were unable to develop beyond meiosis. Furthermore, serk1 serk2 double mutants developed only three cell layers surrounding the sporogenous cell mass, whereas wild-type anthers developed four cell layers. Further confocal microscopic and molecular analyses showed that serk1 serk2 double mutant anthers lack development of the tapetal cell layer, which accounts for the microspore abortion and male sterility. Taken together, these findings demonstrate that the SERK1 and SERK2 receptor kinases function redundantly as an important control point for sporophytic development controlling male gametophyte production.     

An NADP-linked acetoacetyl CoA reductase from Zoogloea ramigera

Zoogloea ramigera I-16-M was found to contain two stereospecific acetoacetyl CoA reductases; one was NADP⁺-linked and d(-)--hydroxybutyryl CoA specific and the other was NAD⁺-linked and l(+)-isomer specific. The NADP⁺-linked enzyme, purified approximately 150-fold, had a pH optimum for the reduction of acetoacetyl CoA at 8.1, but no definite pH optimum for the oxidation of -hydroxybutyryl CoA. The apparent Michaelis constants for acetoacetyl CoA and NADPH were 8.3 and 21 M, respectively. The enzyme was markedly inhibited by acetoacetyl CoA at concentrations higher than 10 M.The incorporation of [1-¹⁴C]acetyl CoA into poly--hydroxybutyrate (PHB) by bacterial crude extract (containing -ketothiolase, acetoacetyl CoA reductases, enoyl CoA hydratases and PHB synthases) or by a system reconstituted from purified preparations of -ketothiolase, acetoacetyl CoA reductase and PHB synthase, was observed only in the presence of NADPH, but not NADH. Among various enzymes involved in PHB metabolism, only the specific activity of glucose 6-phosphate dehydrogenase was elevated 5-fold within 2 h after the addition of glucose to the cells grown in the basal medium.These findings suggest that, in Z. ramigera I-16-M, acetoacetyl CoA is directly reduced to d(-)--hydroxybutyryl CoA by the NADP⁺-dependent reductase, and PHB synthesis is at least partially controled by NADPH availability through glucose 6-phosphate dehydrogenase.Non-Standard Abbreviation PHB poly--hydroxybutyrate     

TA29-barnase基因转化菜心

利用根癌农杆菌导入法, 以菜心带柄子叶为外植体, 对TA29-barnase基因转化菜心进行研究。获得转化植株,进行PCR、Southern blotting杂交和半定量RT-PCR检测, 表明目的基因已经整合到转化植株中, 并且目的基因在转基因植株花蕾中得到表达, 但是表达水平在不同转基因植株间存在差别; 转基因植株开花后, 均表现雄性不育, 不能产生花粉或产生没有活力的少量花粉, 自交不能结实; 用未转化植株正常花粉对雄性不育植株进行授粉, 能够正常结实; 保持系(未转化植株)与不育株杂交后代中雄性不育株与可育株的比例为1:1, 在杂交后代植株子叶期, 喷洒10 mg/L的PPT可以完全杀死可育株; 利用其他菜心品种为父本与不育株进行杂交, 获得的F1植株在生长势和产量方面表现优势, 表明开展菜心优势育种具有一定的潜力。     

TA29-barnase基因转化菜心

利用根癌农杆菌导入法, 以菜心带柄子叶为外植体, 对TA29-barnase基因转化菜心进行研究。获得转化植株,进行PCR、Southern blotting杂交和半定量RT-PCR检测, 表明目的基因已经整合到转化植株中, 并且目的基因在转基因植株花蕾中得到表达, 但是表达水平在不同转基因植株间存在差别; 转基因植株开花后, 均表现雄性不育, 不能产生花粉或产生没有活力的少量花粉, 自交不能结实; 用未转化植株正常花粉对雄性不育植株进行授粉, 能够正常结实; 保持系(未转化植株)与不育株杂交后代中雄性不育株与可育株的比例为1:1, 在杂交后代植株子叶期, 喷洒10 mg/L的PPT可以完全杀死可育株; 利用其他菜心品种为父本与不育株进行杂交, 获得的F1植株在生长势和产量方面表现优势, 表明开展菜心优势育种具有一定的潜力。     

The SCP2‐thiolase‐like protein (SLP) of Trypanosoma brucei is an enzyme involved in lipid metabolism

Bioinformatics studies have shown that the genomes of trypanosomatid species each encode one SCP2‐thiolase‐like protein (SLP), which is characterized by having the YDCF thiolase sequence fingerprint of the Cβ2‐Cα2 loop. SLPs are only encoded by the genomes of these parasitic protists and not by those of mammals, including human. Deletion of the Trypanosoma brucei SLP gene (TbSLP) increases the doubling time of procyclic T. brucei and causes a 5‐fold reduction of de novo sterol biosynthesis from glucose‐ and acetate‐derived acetyl‐CoA. Fluorescence analyses of EGFP‐tagged TbSLP expressed in the parasite located the TbSLP in the mitochondrion. The crystal structure of TbSLP (refined at 1.75 Å resolution) confirms that TbSLP has the canonical dimeric thiolase fold. In addition, the structures of the TbSLP‐acetoacetyl‐CoA (1.90 Å) and TbSLP‐malonyl‐CoA (2.30 Å) complexes reveal that the two oxyanion holes of the thiolase active site are preserved. TbSLP binds malonyl‐CoA tightly (K_d 90 µM), acetoacetyl‐CoA moderately (K_d 0.9 mM) and acetyl‐CoA and CoA very weakly. TbSLP possesses low malonyl‐CoA decarboxylase activity. Altogether, the data show that TbSLP is a mitochondrial enzyme involved in lipid metabolism. Proteins 2016; 84:1075–1096. © 2016 Wiley Periodicals, Inc.     

RNA interference during spermatogenesis in mice

Spermatogenesis consists of complex cellular and developmental processes, such as the mitotic proliferation of spermatogonial stem cells, meiotic division of spermatocytes, and morphogenesis of haploid spermatids. In this study, we show that RNA interference (RNAi) functions throughout spermatogenesis in mice. We first carried out in vivo DNA electroporation of the testis during the first wave of spermatogenesis to enable foreign gene expression in spermatogenic cells at different stages of differentiation. Using prepubertal testes at different ages and differentiation stage-specific promoters, reporter gene expression was predominantly observed in spermatogonia, spermatocytes, and round spermatids. This method was next applied to introduce DNA vectors that express small hairpin RNAs, and the sequence-specific reduction in the reporter gene products was confirmed at each stage of spermatogenesis. RNAi against endogenous Dmc1, which encodes a DNA recombinase that is expressed and functionally required in spermatocytes, led to the same phenotypes observed in null mutant mice. Thus, RNAi is effective in male germ cells during mitosis and meiosis as well as in haploid cells. This experimental system provides a novel tool for the rapid, first-pass assessment of the physiological functions of spermatogenic genes in vivo.     

丹参雄性不育系Sh-B的鉴定与花粉发育过程的解剖学研究

在显微水平上对新发现的丹参雄性不育系Sh-B花药发育过程进行了解剖学观察,并对其花粉活力和结实率进行了鉴定。结果显示:根据花器官及花药的形态、大小以及花丝的长度,可以将Sh-B不育株分为3个不育类型,即Sh-B1、Sh-B2和Sh-B3。这3种不育类型均属于雄性不育,其花丝不到正常可育株的1/2,花药干瘪而瘦小,内无花粉粒或花粉无活力;其根、茎、叶以及种子形态结构与正常可育植株基本相似。产生雄性不育的主要原因有:花粉囊药室内壁纤维层加厚,影响花药壁开裂;小孢子母细胞周围不产生胼胝质或产生的胼胝质很少;绒毡层细胞延迟解体;花粉粒畸形。在其花药发育的小孢子母细胞时期、四分体形成前期、单核期、双核期均可能产生雄性不育的小孢子或花粉粒。