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981.
云南大叶茶体细胞胚发生及体细胞胚苗形成体系的建立 总被引:9,自引:0,他引:9
利用云南大叶茶(Camellia sinensis var.assamica Kitamura)胚性细胞系(CL_1)中悬浮培养物,建立了高频率同步化体细胞胚发生及体胚苗形成体系。以改良的MS为基本培养基,将CL_1中培养物由液体保持培养基(0.1mg/L 2,4-D 0.5mg/L 6-BA)继代转入液体诱导培养基(0.05mg/L 2,4-D 0.50mg/L6-BA),暗培养诱导28d,转入不含任何激素的液体分化培养基中再培养28d,获得了不同发育时期的体细胞胚,其发生频率为81.5%。不同发育时期的体细胞胚用不同目的细胞筛收集,在液体生长培养基(1/2 MS 1.0mg/L GA_3 0.5mg/L 6-BA)中培养发育成熟。ABA有利于高质量体细胞胚的形成。20~70月大小的体细胞胚在固体生长培养基中成苗转换率为75%。在液体悬浮培养条件下观察记录了体细胞胚发育过程,证实其过程与合子胚的形态发生过程相似。 相似文献
982.
Qun-Ying Jin Hua-Zheng Peng Er-Pei Lin Nan Li Dan-Ni Huang Yan-Li Xu Xi-Qi Hua Kui-Hong Wang Tang-Jun Zhu 《Journal of Plant Biology》2016,59(4):322-335
As one of the largest members of Poaceae family, bamboo is a very important agricultural plant in the world. The development of bamboo shoot is very special and particularly significant to bamboo production. Understanding the developmental differences between bamboo shoot and rhizome shoot is extremely valuable for us to further elucidate the mechanism of bamboo shoot formation since both bamboo shoot and rhizome shoot develop directly from rhizome bud underground. In this paper, miRNA chips with 413 miRNA probes were used to compare miRNA expressions between bamboo shoot and rhizome shoot. The experiment revealed 64 bamboo shoot upregulated and 56 rhizome shoot up-regulated miRNAs which were classified into four major categories according to deep sequencing based target prediction. Meristem and morphological development related miRNAs were most important in bamboo shoot, especially miR171 and miR156 members. While in rhizome shoot the mainstream of miRNA expressions was metabolism and nutrition related ones, especially miR395 members. The meristem and morphological development related miRNAs in bamboo shoot showed some embryonic characteristics and suggested the participation of several phytohormones like gibberellin, cytokinin and auxin, which were absent in those miRNAs of rhizome shoot. Further qRT-PCR detections of 21 up-regulated miRNAs in bamboo seedlings indicated that 12 ones were regulated to varying degrees by some environmental factors. Among them, rhizome shoot upregulated osa-miR395b was the most environment-sensitive miRNA, particularly to dehydration. And the bamboo shoot up-regulated osa-miR399j proved uniquely and strongly induced by phosphor. The existence of multiple regulation sites from same miRNA suggested the probability of crosstalks among meristem development, metabolism and stress response during bamboo shoot and rhizome shoot development. 相似文献
983.
Nan Jiang Richard E. Wiemels Aaron Soya Rebekah Whitley Michael Held Ahmed Faik 《Plant physiology》2016,170(4):1999-2023
Xylans play an important role in plant cell wall integrity and have many industrial applications. Characterization of xylan synthase (XS) complexes responsible for the synthesis of these polymers is currently lacking. We recently purified XS activity from etiolated wheat (Triticum aestivum) seedlings. To further characterize this purified activity, we analyzed its protein composition and assembly. Proteomic analysis identified six main proteins: two glycosyltransferases (GTs) TaGT43-4 and TaGT47-13; two putative mutases (TaGT75-3 and TaGT75-4) and two non-GTs; a germin-like protein (TaGLP); and a vernalization related protein (TaVER2). Coexpression of TaGT43-4, TaGT47-13, TaGT75-3, and TaGT75-4 in Pichia pastoris confirmed that these proteins form a complex. Confocal microscopy showed that all these proteins interact in the endoplasmic reticulum (ER) but the complexes accumulate in Golgi, and TaGT43-4 acts as a scaffold protein that holds the other proteins. Furthermore, ER export of the complexes is dependent of the interaction between TaGT43-4 and TaGT47-13. Immunogold electron microscopy data support the conclusion that complex assembly occurs at specific areas of the ER before export to the Golgi. A di-Arg motif and a long sequence motif within the transmembrane domains were found conserved at the NH2-terminal ends of TaGT43-4 and homologous proteins from diverse taxa. These conserved motifs may control the forward trafficking of the complexes and their accumulation in the Golgi. Our findings indicate that xylan synthesis in grasses may involve a new regulatory mechanism linking complex assembly with forward trafficking and provide new insights that advance our understanding of xylan biosynthesis and regulation in plants.It is believed that Golgi-localized, multiprotein complexes synthesize plant hemicellulosic polysaccharides, including xylans. Such complexes are not well characterized in plants (Zeng et al., 2010; Atmodjo et al., 2011; Chou et al., 2012), which is in sharp contrast with mammalian and yeast cells (Jungmann and Munro, 1998; McCormick et al., 2000; Giraudo et al., 2001). Xylans are the most abundant plant hemicellulosic polysaccharides on Earth and play an important role in the integrity of cell walls, which is a key factor in plant growth. Any mutations affecting xylan backbone biosynthesis seem to result in abnormal growth of plants due mostly to thinning and weakening of secondary xylem walls, described as the irregular xylem (irx) phenotype. Thus, characterizing the xylan synthase complex (XSC) would have an impact on plant improvement, as well as many industrial applications related to food, feed, and biofuel production (Yang and Wyman, 2004; Faik, 2010). Although the Arabidopsis (Arabidopsis thaliana) irx mutants have revealed the involvement of several glycosyltransferase (GT) gene families in xylan biosynthesis (Brown et al., 2007, 2009; Lee et al., 2007, 2010; Wu et al., 2009, 2010), no XSCs have been purified/isolated from Arabidopsis tissues, and we still do not know whether some of the identified Arabidopsis GTs can assemble into functional XSCs. Furthermore, if GTs do assemble into XSCs, we don’t know the mechanisms by which plant cells control their assembly and cellular trafficking. In contrast to dicots, xylan synthase activity was recently immunopurified from etiolated wheat (Triticum aestivum) microsomes (Zeng et al., 2010). This purified wheat XS activity was shown to catalyze three activities, xylan-glucuronosyltransferase (XGlcAT), xylan-xylosyltransferase (XXylT), and xylan-arabinofuranosyltranferase (XAT), which work synergistically to synthesize xylan-type polymers in vitro (Zeng et al., 2008, 2010). This work focuses on describing protein composition, assembly, and trafficking of this purified wheat XS activity.In all eukaryotes, proteins of the secretory pathway (including GTs) are synthesized in the endoplasmic reticulum (ER) and modified as they go through the Golgi cisternae. Most proteins exit the ER from ER export sites (ERESs; Hanton et al., 2009) and use a signal-based sorting mechanism that allows them to be selectively recruited into vesicles coated by coat protein II complexes (Barlowe, 2003; Beck et al., 2008). For many Golgi-resident type II membrane proteins, di-Arg motifs, such as RR, RXR, and RRR located in their cytosolic NH2-terminal ends, have been shown to be required for their ER export (Giraudo et al., 2003; Czlapinski and Bertozzi, 2006; Schoberer et al., 2009; Tu and Banfield, 2010). Interestingly, di-Arg motifs located ∼40 amino acids from the membrane on the cytosolic side can also be used to retrieve some type II ER-resident proteins from cis-Golgi (Schutze et al., 1994; Hardt et al., 2003; Boulaflous et al., 2009). In contrast to the signal-based sorting mechanism involved in trafficking between the ER and Golgi, the steady-state localization/retention of proteins (including GTs) in the Golgi is thought to occur through vesicular cycling. Cycling is influenced by various mechanisms, including the length and composition of the transmembrane domain (TMD) of type II GTs (Bretscher and Munro, 1993; Colley, 1997; van Vliet et al., 2003; Sousa et al., 2003; Sharpe et al., 2010), and the oligomerization/aggregation of GTs (kin hypothesis), which suggests that formation of homo- or heterooligomers of GTs in the Golgi may prevent their recruitment into clathrin-coated vesicles (Machamer, 1991; Nilsson et al., 1993; Weisz et al., 1993; Cole et al., 1996). Some Golgi-resident GTs are predicted to have a cleavable NH2-terminal secretion signal peptide (SP) and would therefore exist as soluble proteins in the Golgi lumen. To maintain their proper Golgi localization, these processed GTs are likely part of multiprotein complexes anchored to integral membrane proteins. The fact that homologs of many of the trafficking proteins from mammalian and yeast cells are found in plants indicates that trafficking machineries of the plant secretory pathway are likely conserved (d’Enfert et al., 1992; Bar-Peled and Raikhel, 1997; Batoko et al., 2000; Pimpl et al., 2000; Phillipson et al., 2001; Hawes et al., 2008).It is becoming increasingly evident that understanding the mechanisms controlling protein-protein interaction, sorting, and trafficking of polysaccharide synthases (including XSCs) will help elucidate how plants regulate cell wall synthesis and deposition during their development. To this end, we believe that the purified wheat XS activity (Zeng et al., 2010) is an excellent model for this type of study. In this work, proteomics was used to determine the protein composition of the purified XS activity. Confocal microscopy and immunogold transmission electron microscopy (TEM) were used to investigate the assembly and trafficking of the complex. Our proteomics data showed that the purified activity contains two GTs, TaGT43-4 and TaGT47-13, two putative mutases, TaGT75-3 and TaGT75-4, and two non-GT proteins: a germin-like protein (TaGLP) belonging to cupin superfamily and a protein specific to monocots annotated as wheat vernalization-related protein 2 (TaVER2). Microscopy analyses revealed that all these proteins interact in the ER, but the assembled complexes accumulate in the Golgi. Export of these complexes from the ER is controlled by the interaction between TaGT43-4 and TaGT47-13. Characterization of the wheat XSC and its trafficking furthers our understanding of xylan biosynthesis in grasses and helps elucidate how polysaccharide synthase complexes are assembled, sorted, and maintained in different compartments of the secretory pathway. 相似文献
984.
985.
Manel Ben Abdallah Fatma Karray Najla Mhiri Nan Mei Marianne Quéméneur Jean-Luc Cayol Gaël Erauso Jean-Luc Tholozan Didier Alazard Sami Sayadi 《Extremophiles : life under extreme conditions》2016,20(2):125-138
Prokaryotic diversity was investigated in a Tunisian salt lake, Chott El Jerid, by quantitative real-time PCR, denaturing gradient gel electrophoresis (DGGE) fingerprinting methods targeting the 16S rRNA gene and culture-dependent methods. Two different samples S1-10 and S2-10 were taken from under the salt crust of Chott El Jerid in the dry season. DGGE analysis revealed that bacterial sequences were related to Firmicutes, Proteobacteria, unclassified bacteria, and Deinococcus-Thermus phyla. Anaerobic fermentative and sulfate-reducing bacteria were also detected in this ecosystem. Within the domain archaea, all sequences were affiliated to Euryarchaeota phylum. Quantitative real-time PCR showed that 16S rRNA gene copy numbers of bacteria was 5 × 106 DNA copies g?1 whereas archaea varied between 5 × 105 and 106 DNA copies g?1 in these samples. Eight anaerobic halophilic fermentative bacterial strains were isolated and affiliated with the species Halanaerobium alcaliphilum, Halanaerobium saccharolyticum, and Sporohalobacter salinus. These data showed an abundant and diverse microbial community detected in the hypersaline thalassohaline environment of Chott El Jerid. 相似文献
986.
987.
Jianping Wang Xiaojie Fu Lie Yu Nan Li Menghan Wang Xi Liu Di Zhang Wei Han Chenguang Zhou Jian Wang 《Molecular neurobiology》2016,53(9):6057-6068
988.
Nan Li Shu-Xian Yu Yin-Chu Wang Jia-Lin Li Fu-Chao Li Song Qin 《Journal of applied phycology》2016,28(2):773-781
Ribulose-1,5-bisphosphate carboxylase/oxygenase (RubisCO) as an important enzyme in photosynthetic process exists in various marine phytoplankton. To investigate the photosynthetic phytoplankton communities, conservative encoding gene of RubisCO large subunit (rbcL) was chosen as a target gene in this study. We constructed 33 clone libraries from samples collected in the north of South China Sea (NSCS) and retained 3173 sequences for further analysis. Results of BLASTp showed Stramenopiles and Haptophyta were predominant taxonomic groups in this area, while only five harmful species of Dinophyta were observed. According to the estimators of biodiversity, the photosynthetic community of N709 had very low genetic diversity and richness, which could be explained by the influence of brackish estuarine environment. Beta diversity showed that all samples could be clustered into three groups and those samples with approximately the same distance to land clustered together. Temperature, depth, and latitude of stations as biogeographic factors were indicated to have a significantly positive or negative relation with biodiversity estimators of the phytoplankton community. We concluded that biogeographic factors could be linked with difference in diversity and population of natural phytoplankton assemblages in horizontal surface of NSCS in summer 2007. 相似文献
989.
鸟类的咬合力受食性、种内竞争和捕食压力等多种生态因素的影响,可作为其生态适应特征的重要指标。但目前关于鸟类的咬合力及其影响因素却鲜有研究,为此,我们使用咬合力传感器,对同属的两个近缘鸟种,麻雀(Passer montanus)和山麻雀(P.cinnamomeus)的咬合力进行了比较研究。结果表明,山麻雀(n=12)的咬合力显著大于麻雀(n=59)(t=3.754,P0.01),但山麻雀(t=0.449,P0.05)和麻雀(Z=﹣1.198,P0.05)的雌雄个体间咬合力均无差异,同时,山麻雀的头宽(t=﹣3.713,P0.01)、头高(t=﹣5.405,P0.01)和喙宽(t=﹣6.201,P0.01)均显著大于麻雀。尽管个体的咬合力与其身体各参数指标无显著相关性,但在种间,头和喙的大小可能是影响两者咬合力的重要因素,由于两者的一些生态适应特征可通过头大小和喙型体现,推测两者生境和食性的差异可能是影响其咬合力大小的主要原因。 相似文献
990.
Identifying the antiasthmatic target of doxofylline using immobilized β2‐adrenoceptor based high‐performance affinity chromatography and site‐directed molecular docking 下载免费PDF全文
Yajun Zhang Kaizhu Zeng Jing Wang Haiyang Gao Yefei Nan Xiaohui Zheng 《Journal of molecular recognition : JMR》2016,29(10):492-498
As a xanthine derivative, doxofylline is believed to be dominant for fighting against asthma in practice. Unlike other xanthines, the antiasthmatic effects of doxofylline lack any definite proof of target and mediating mechanism according to previous reports. In this work, the interaction between doxofylline and β2‐AR was investigated by high performance affinity chromatography using frontal analysis and nonlinear model. The methodology involved the immobilization of β2‐AR on the silica gel by a random linking method, the determination of the binding parameters by frontal analysis and nonlinear chromatography and the exploration of the binding mechanism by site‐directed molecular docking. The association constant for doxofylline binding to immobilized β2‐AR was determined to be 7.70 × 104 M?1 by nonlinear chromatography and 5.91 × 104 M?1 by frontal analysis. Ser169 and Ser173 were the binding sites for the receptor–drug interaction on which hydrogen bond was believed to be the main driven force during the interaction. These results indicated that the antiasthmatic effects of doxofylline may be behind the mediating mechanism of β2‐AR. High performance affinity chromatography based on immobilized receptor has potential to become an alternative for drug target confirmation and drug–receptor interaction analysis. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献