甘蔗与斑茅BC1分子鉴定、抗黑穗病和花叶病初步评价

为了解甘蔗(Saccharum)与斑茅(Erianthus arundinaceus)杂交后代作为抗病亲本的利用价值,通过特异引物PCR鉴定出78份甘蔗与斑茅杂交BC_1真实杂种;通过人工接种花叶病毒和黑穗病菌,初步评价了甘蔗和斑茅杂交BC_1的抗病表现。结果表明,甘蔗和斑茅杂交BC_1的抗花叶病具有普遍性,而黑穗病抗性则出现分离。初步筛选出BC_1无性系YCE01-48、YCE01-71、YCE01-105、YCE01-125、YCE02-184和YCE01-118可同时抗花叶病和黑穗病,有望成为甘蔗杂交利用的高抗病源亲本。     

甘蔗转基因育种研究进展

由于复杂的遗传背景、较低的可育性和缺乏优异种质资源等因素给甘蔗品种改良带来了很大的困难,而通过转基因技术为甘蔗品种改良提供了有效的途径。甘蔗通过转基因,不仅在其抗虫性(螟虫和蚜虫)、抗病性(白条病、花叶病和黑穗病)、蔗糖改良(蔗糖产量、蔗糖纯度和色泽)、抗除草剂、抗旱性等方面已经取得了很大的进展,而且转基因甘蔗作为生物反应器生产重组蛋白(GM-CSF等)和生物塑料聚羟基丁酸酯(PHB)也取得了很好的成果。综述甘蔗主要性状遗传改良研究进展、转基因存在的问题以及转基因安全性研究状况,并对今后的甘蔗转基因育种前景和研究方向进行分析。     

玉米抗甘蔗花叶病毒分子标记开发

由甘蔗花叶病毒引起的玉米矮花叶病是我国黄淮海地区玉米生产的重要病害,开发抗矮花叶病基因分子标记是开展抗病分子标记辅助育种的基础。本文基于玉米6.00-6.01区域的“一致性抗甘蔗花叶病毒QTL区间”寻找抗病基因的功能保守域,依据序列多态性开发出抗病分子标记InDel-130和InDel-110,在已知抗性的102份玉米自交系中进行验证。通过分析标记抗病带型和感病带型中的抗病和感病自交系数目,卡平方测验表明标记InDel-130在供试自交系中与抗病性的表现独立无关,而标记InDel-110与甘蔗花叶病毒抗性高度相关,为共显性标记,可用于玉米抗甘蔗花叶病毒种质筛选和分子标记辅助育种。     

玉米抗甘蔗花叶病毒分子标记开发

由甘蔗花叶病毒引起的玉米矮花叶病是我国黄淮海地区玉米生产的重要病害,开发抗矮花叶病基因分子标记是开展抗病分子标记辅助育种的基础。本文基于玉米6．00-6．01区域的“一致性抗甘蔗花叶病毒QTL区间”寻找抗病基因的功能保守域,依据序列多态性开发出抗病分子标记InDel-130和InDel-110,在已知抗性的102份玉米自交系中进行验证。通过分析标记抗病带型和感病带型中的抗病和感病自交系数目,卡平方测验表明标记InDel-130在供试自交系中与抗病性的表现独立无关．而标记InDel-110与甘蔗花叶病毒抗性高度相关,为共显性标记,可用于玉米抗甘蔗花叶病毒种质筛选和分子标记辅助育种。     

滇蔗茅杂交F_1双抗SCSMV和SrMV鉴定与评价

以我国蔗区甘蔗花叶病的2种主要病原甘蔗条纹花叶病毒分离物(SCSMV-JP1,Gen Bank登录号JF488064)和高粱花叶病毒分离物(Sr MV-HH,Gen Bank登录号DQ530434)为接种毒源,采用人工切茎接种和RT-PCR检测相结合的方法,于2015-2016年2次对由热带种路打士与滇蔗茅云滇95-19杂交获得的41份滇蔗茅杂交F_1及亲本进行了双抗SCSMV和Sr MV鉴定与评价。结果表明,41份滇蔗茅杂交F_1及亲本中,对SCSMV表现1级高抗到3级中抗的有23份,占53.49%,4级感病到5级高感的有20份,占46.51%;对Sr MV表现1级高抗到3级中抗的有31份,占72.09%,4级感病到5级高感的有12份,占27.91%。综合分析结果显示,10份滇蔗茅杂交F_1对SCSMV和Sr MV均表现1~2级抗病,占23.26%,其中云09-604、云09-607、云09-619、云09-633、云09-656、云滇95-19等6份滇蔗茅杂交F_1对2种病毒均表现为1级高抗,占13.95%。研究结果明确了41份滇蔗茅杂交F_1及亲本对甘蔗花叶病2种主要致病病原的抗性,筛选出10份双抗SCSMV和Sr MV的滇蔗茅杂交F_1,为深入开展抗甘蔗花叶病育种提供了优良抗源种质和参考依据。     

甘蔗优良品种材料抗高粱花叶病毒鉴定与评价

采用生长期人工切茎接种和RT-PCR检测相结合方法,于2011—2012年2次对国家甘蔗体系近年选育的49份优良新品种(系)和19份云蔗系列优良中间材料进行由高粱花叶病毒(SrMV-HH,GenBank登录号DQ530434)引起的甘蔗花叶病的抗性鉴定与评价。结果表明,49份优良新品种(系)中,1级高抗到3级中抗的有29份,占59.18%。其中粤甘40号、粤甘42号、粤糖55号、云蔗03-194、云蔗99-596、云瑞06-189、桂糖30号、德蔗03-83、闽糖01-77等9份材料表现1级高抗,占18.37%;福农0335、柳城05-129、粤糖96-86、云蔗01-1413、云蔗03-258、云蔗06-80、桂糖02-351等7份材料表现2级抗病,占14.29%。19份云蔗系列优良中间材料中,1级高抗到3级中抗的有13份,占68.42%。其中云蔗04-622、云蔗05-197、云蔗06-267、云蔗05-194、云蔗06-160、云蔗07-2384、云瑞05-704等7份材料表现1级高抗,占36.84%;云蔗06-362表现2级抗病,占5.26%。研究结果为深入开展甘蔗抗花叶病育种,选育和推广优良抗病品种,有效防控甘蔗花叶病提供了科学依据和优良抗源材料。     

甘蔗鞭黑粉菌侵染甘蔗的早期可视化观察

【目的】甘蔗鞭黑粉菌(Sporisorium scitamineum)引起的甘蔗黑穗病是我国甘蔗生产重要的病害。示踪甘蔗鞭黑粉菌侵染甘蔗的过程将有助于揭示其致病性和甘蔗抗黑穗病机制,为抗病品种的选育以及黑穗病的防治奠定基础。【方法】利用农杆菌介导的遗传转化技术对甘蔗鞭黑粉菌进行黄色荧光标记,对转化子进行配合及致病力检测,将标记菌株接种甘蔗感病品种ROC22及抗病品种中蔗1号、中蔗6号和中蔗9号并进行早期可视化观察。【结果】组成型表达的eYFP不影响标记菌株的配合及致病能力,而且黄色荧光性状能通过冬孢子稳定遗传。激光共聚焦显微观察表明,注射接种病原菌第5天,在感病品种ROC22的生长点已可见荧光菌丝及少量聚集状菌丝体,在抗病品种中蔗1号、中蔗6号和中蔗9号中可见少量单一丝状菌丝,无聚集状菌丝体。接种后35 d,在ROC22中可见大量聚集状菌丝体,但在中蔗品种中的聚集状菌丝体明显较少,而以中蔗1号最少。【结论】成功构建了甘蔗鞭黑粉菌侵染甘蔗的荧光示踪系统,并发现中蔗系列品种存在抑制甘蔗鞭黑粉菌菌丝体在细胞间扩展的机制。     

甘蔗亚族的地理分布

对甘蔗亚族植物在世界的分布状况和在中国的分布特点进行了讨论,通过分析甘蔗亚族各属种的分布区类型,认为亚洲东南部为甘蔗亚族的分布中心和多样性中心,同时对甘蔗亚族起源作了推测。     

甘蔗线条花叶病毒研究进展

甘蔗线条花叶病毒(Sugarcane streak mosaic virus,SCSMV)是引起甘蔗花叶病的主要病原之一,在世界各大蔗区普遍发生,严重威胁甘蔗产业的发展。综述了SCSMV的生物学特性、发生与危害、鉴定与检测、基因组结构与功能、防治策略等方面的研究进展,以期为深入研究SCSMV及其所致病害提供参考。     

“甘蔗复合群＂能源植物遗传育种研究进展

“甘蔗复合群”是一类极具生物能源开发潜力的禾本科C4植物。近年来由于世界能源危机的影响和植物遗传育种研究的发展,国内外学者对“甘蔗复合群”植物资源评价和能源育种研究越来越重视。本文介绍了“甘蔗复合群”的基本概念、属种分类及核心类群等研究背景。同时以甘蔗属和芒属核心资源为例,从“甘蔗复合群”能源植物遗传育种的角度综述了国内外相关研究进展。旨在总结前人的理论研究成果和杂交育种实践经验,探讨相关类群在植物系统分类和种质资源利用中存在问题与对策,为我国“甘蔗复合群”能源植物的应用基础研究和产业化开发利用提出建议。     

A virus-derived short hairpin RNA confers resistance against sugarcane mosaic virus in transgenic sugarcane

RNA interference (RNAi) is commonly used to produce virus tolerant transgenic plants. The objective of the current study was to generate transgenic sugarcane plants expressing a short hairpin RNAs (shRNA) targeting the coat protein (CP) gene of sugarcane mosaic virus (SCMV). Based on multiple sequence alignment, including genomic sequences of four SCMV strains, a conserved region of ~ 456 bp coat protein (CP) gene was selected as target gene and amplified through polymerase chain reaction (PCR). Subsequently, siRNAs2 and siRNA4 were engineered as stable short hairpin (shRNA) transgenes of 110 bp with stem and loop sequences derived from microRNA (sof-MIR168a; an active regulatory miRNA in sugarcane). These transgenes were cloned in independent RNAi constructs under the control of the polyubiquitin promoter. The RNAi constructs were delivered into two sugarcane cultivars ‘SPF-234 and NSG-311 in independent experiments using particle bombardment. Molecular identification through PCR and Southern blot revealed anti-SCMV positive transgenic lines. Upon mechanical inoculation of transgenic and non-transgenic sugarcane lines with SCMV, the degree of resistance was found variable among the two sugarcane cultivars. For sugarcane cultivar NSG-311, the mRNA expression of the CP–SCMV was reduced to 10% in shRNA2-transgenic lines and 80% in shRNA4-transgenic lines. In sugarcane cultivar SPF-234, the mRNA expression of the CP–SCMV was reduced to 20% in shRNA2-transgenic lines and 90% in shRNA4 transgenic lines, revealing that transgenic plants expressing shRNA4 were almost immune to SCMV infection.     

Sugarcane mosaic virus in plantlets regenerated from diseased leaf tissue

Plantlets produced from sugarcane leaf tissue were examined to determine the effect of propagation on the frequency of occurrence of sugarcane mosaic virus (SCMV).Explants from immature leaf tissues of the sugarcane variety CP 72-356 (Saccharum interspecific hybrid), healthy or SCMV-infected, were cultured on Murashige-Skoog medium to which a combination of cytokinin and auxin had been added. Plantlets developed on healthy and infected leaf tissue within 6 weeks. The juice from plantlets was assayed for SCMV on Rio sorghum (Sorghum bicolor (L.) Moench, var. Rio) seedlings and on sugarcane varieties CP 31-294 and CO 31-588 for SCMV-strain identification. Results indicated that SCMV strain H was transmitted from the donor tissue to the regenerated plantlets. Observation on plantlets reared in the greenhouse showed that 23% had symptoms of SCMV. In a second replicated experiment, the leaf tissue from plants of POJ 234 free of mosaic or infected with SCMV strain A, B, D, H, or I was cultured. Each of the five strains was transmitted from donor to plantlet as indicated by assays on sorghum and sugarcane varieties. From 11 to 88% of the plantlets had mosaic symptoms, depending on the strain infecting the donor plant. In this experiment, SCMV-strain M was transmitted from an unidentified donor variety to 23% of the regenerated plantlets.Portions of this paper have been presented to the American Society of Sugar Cane Technologists, at the meeting in Clearwater, Florida in June, 1984.     

Identification of somaclonal variants of sugarcane (Saccharum spp.) resistant to sugarcane mosaic virus via RAPD markers

Somaclonal variants resistant to sugarcane mosaic virus (SCMV) were obtained from susceptible sugarcane cv PR62258 through somatic embryogenesis by increasing the number of subcultures of the embryogenic callus tissue in MS medium with 3 mg/L 2,4-dichlorophenoxyacetic acid. Transfers were made at 30-day intervals for 1, 2 or 3 subcultures. Two somaclones, namely AT626 and BT627, were selected by their resistance to SCMV. These subclones have maintained the resistance trait over seven years of testing in the field. In this report we identified the somaclonal SCMV resistant variants from the maternal line and the nonresistant somaclones, using the RAPD technique.     

Impact of serial thermotherapy on sugarcane mosaic virus titre and regeneration in sugarcane: Auswirkung serieller thermotherapie auf zuckerrohr-mosaikvirustiter und regeneration bei zuckerrohr

Serial thermotherapy with hot water involving different treatment series was followed in two sugarcane cultivars namely Co 740 and CoC 671 for assessing its effect on sugarcane mosaic virus (SCMV) titre in the regenerated plants. Observations on virus titre and sett regeneration were recorded at different intervals after planting the treated setts. The direct antigen coating (DAC) ELISA method was followed with the polyclonal antisera raised against the widespread local SCMV strain. All the thermo treatments affected the sett regeneration in both the cultivars. Although none of the treatment series produced virus free plants, the SCMV titre was comparatively reduced in the regenerated plants at an early phase (4 weeks after planting) in severe hot water treatment series but drastic reduction in sett germination was observed. However, the SCMV titre picked up later (8 weeks after planting) in all the treatment series. The early reduction in SCMV titre could be utilized for obtaining more virus free plants in meristem culture.     

Molecular Diversities of Sugarcane mosaic virus and Sorghum mosaic virus Isolates from Yunnan Province,China

Degenerate Potyviridae primers were used to amplify and sequence the 3′‐terminal regions of viruses from traditional and modern cultivars of sugarcane with mosaic disease growing in different areas of Yunnan province, China. Seven samples contained Sugarcane mosaic virus (SCMV), 11 contained Sorghum mosaic virus (SrMV) and two contained both viruses. SCMV was only isolated from traditional cultivars. In a phylogenetic analysis of the partial NIb and complete coat protein coding regions, most SCMV isolates formed a distinctive phylogenetic cluster (named SO) that otherwise contained only three Vietnamese isolates. SCMV variation seems mostly related to host genotype. In the same analysis, the SrMV isolates formed three major groups, one of which is reported for the first time, but the significance of the grouping is unclear.     

Genetic diversity and population structure of Sorghum mosaic virus infecting Saccharum spp. hybrids

Sugarcane mosaic disease is widespread in many countries and has been identified to be caused by Sugarcane mosaic virus (SCMV), Sorghum mosaic virus (SrMV) and Sugarcane streak mosaic virus (SCSMV). Viral surveys of SCMV, SrMV and SCSMV were performed from 104 leaf samples of Saccharum spp. hybrid growing in China and two leaf samples in Myanmar. Sorghum mosaic virus was a major causal agent for sugarcane mosaic disease in China whereby 72.1% (75/104) of samples had SrMV infection alone, 6.7% (7/104) were mixed with SCMV and 17.3% (18/104) were mixed with SCSMV. Sugarcane streak mosaic virus infection alone occurred in 3.8% (4/104) of samples, but no single infections were observed for SCMV. Two viruses (SrMV and SCSMV) were detected in sugarcane mosaic samples in Myanmar. Phylogenetic analysis revealed that all of the SrMV isolates were clustered into three major lineages encompassing six phylogroups/genotypes based on the CP sequences (825 nucleotides) of 113 Chinese and 2 Burmese isolates from this study and 73 isolates reported worldwide. Six clearly distinct SrMV phylogroups (G1–G6) were formed and shared 74.3–94.1% nucleotide identity and 84.7–98.1% amino acid identity of CP sequences. SrMV‐G5 was identified to be new distinct phylogroup that was restricted to the Fujian and Guangxi provinces. The unique SrMV‐G6 phylogroup only occurred in Yunnan province. Insertion/deletion mutations, negative selection and frequent gene flow are factors driving the genetic evolution and population structure of SrMV in China.