36个小麦审定和区试品种(系)的抗白粉病基因推导

明确我国当前小麦审定和区试品种含有的抗白粉病基因, 可为这些品种在小麦抗病育种中的应用及品种合理布局和轮换提供依据。本研究采用24个不同毒性的小麦白粉菌菌株对36个小麦审定和区试品种(系)进行抗白粉病基因推导, 参试品种(系)与46个已知抗病基因小麦品种(系)抗谱比较的结果表明, 11个小麦审定品种中有5个品种对所有供试白粉菌菌株表现抗性, 结合亲本溯源, 推测其中有3个品种可能携有Pm21基因; 另外6个审定品种中有5个品种可能含有抗病基因Pm2, 且其对应的亲本或亲本组合中含有抗病基因Pm2。25个区试品种(系)中有3个可能含有Pm21, 10个含有Pm2, 1个含有Pm2+6,2个含有Pm4b,1个含有Pm8。另外, 参试的36个品种(系)中还有9个品种(系)和已知基因品种抗谱存在一定差异。总体上, 推导出已知基因的品种以含有Pm2基因的品种最多, Pm21基因的品种次之, 建议在生产上加强对Pm21基因品种(系)特别是已审定的携有Pm21基因品种的推广和应用, 应该注意一些省份在育种和生产上应慎用或少用含Pm2基因的品种(系)。     

粳稻柱头外露率QTL定位

【目的】柱头外露是影响杂交水稻制种的一个重要性状。本研究旨在初步鉴定控制柱头外露率的QTL。【方法】以高柱头外露率粳稻两系不育系大S×低柱头外露率热带粳稻品系D50的F_2群体及海南陵水、浙江杭州两地重复种植的F_(2:3)群体为材料,考查F_2群体及陵水、杭州两地两次重复F_(2:3)群体单边柱头外露率(PSES)、双边柱头外露率(PDES)和柱头总外露率(PES)。【结果】相关分析表明,单边柱头外露率、双边柱头外露率和柱头总外露率之间存在极显著的正相关。根据构建的大S×D50 F_2群体遗传连锁图谱,QTL分析检测到水稻柱头外露率QTL 21个,分布于第1、2、3、4、6、7和12染色体上,贡献率变幅为0.1%~57.6%,除个别贡献率极低的位点外,绝大部分QTL加性效应来自于高值亲本大S。其中位于第4染色体和第12染色体的两个位点q PDES4,q PES12在F_2和两次重复F_(2:3)群体中均检测到,贡献率分别达17.86%和16.98%。位于第3染色体的q PES3位点在陵水、杭州两次F_(2:3)群体中重复检测到,贡献率高达25.6%。【结论】检测到的QTL,有些与其他学者报道的处于同一位置,有些则是新的柱头外露率QTL。这些水稻柱头外露率QTL为今后柱头外露率基因精细定位、克隆、以及利用分子标记辅助选择(MAS)选育高柱头外露率粳型不育系提供理论依据。     

干旱胁迫下杂草稻和栽培稻根系基因表达差异研究

利用Affymetrix水稻表达谱芯片(GeneChip Rice Genome Array)研究抗旱杂草稻HEB07-2与巴西陆稻(IAPAR9)在PEG模拟干旱胁迫下根系基因表达变化。结果表明,杂草稻HEB07-2转录组对干旱信号的响应程度与方向均与巴西陆稻存在很大差异,HEB07-2以正向调控为主,而巴西陆稻以负调控为主。干旱胁迫下杂草稻HEB07-2与巴西陆稻分别有6878个和2923个基因表达,其中HEB07-2受干旱胁迫诱导上调的基因有4693个,下调的基因有2185个;而巴西陆稻则分别有983个和1940个。在差异基因表达的倍数上也是HEB07-2高于巴西陆稻。进一步的GO分析表明,在干旱胁迫下,HEB07-2和IAPAR9根系基因响应途径的差异表现为HEB07-2在钾离子转运(GO:0006813)、次生物质代谢(GO:0019748)、细胞生长(GO:0016049)、葡萄糖代谢(GO:0006006)、跨膜离子转运器活性(GO:0015075)、亚铁血红素结合体(GO:0020037)、氧化还原酶活性(GO:0016491)等方面基因显著上调,这与生理数据和表型数据一致。     

Effects of Exogenous Materials on Nitrogen Photosynthetic Efficiency and Yield Formation of japonica Rice in Cold Region Under Cold Water Stress at Booting Stage

【Objective】Our goal is to develop disaster-reducing, production-preserving and chemical-controlling cultivation techniques to effectively resist cold damage at the booting stage of japonica rice in cold region.【Method】The split plot design and the central combination test design were used to screen out the optimal application concentrations of CaCl2, glutamic acid(Glu), and γ-aminobutyric acid(GABA) through the membership function values of yield-related indicators under cold-water stress at booting stage.【Result】1) Under cold water stress at the booting stage, the optimal concentrations of exogenous CaCl2, Glu and GABA (CGG) were 1.87 mmol/L, 2.76 mg/L, 4.40 mmol/L, respectively and the average membership function value is the largest (0.932). 2) Compared with normal irrigation, the nitrogen photosynthetic efficiency of cold-region japonica rice decreased under cold stress at the booting stage. Compared with cold water stress at the booting stage, CGG application at the optimal concentration significantly increased the leaf area index (5.37%) and nitrogen photosynthetic efficiency (4.53%) of Dongnong 428 at the full heading stage; significantly increased leaf biomass per leaf area (2.56%) and leaf area index (3.39%) of Songjing 10 at the full heading stage. 3) Compared with cold water stress at the booting stage, the application of the optimal concentration of CGG increased the dry matter accumulation from heading stage to maturity in the cold-region japonica rice, but it was still lower than that of the normal irrigation, and there were differences between varieties and treatments. 4) Compared with cold water stress at booting stage, the yield and yield components of cold-region japonica rice increased with the application of the optimal concentration CGG, and the impact on cold-sensitive varieties was more significant. 5) Compared with the cold water stress at the booting stage, the average increase in temperature production efficiency of Dongnong 428 and Songjing 10 was 5.55% and 23.72% under the optimal concentrations of CGG, respectively. The contribution rate of exogenous CGG to the gap of temperature production efficiency is 8.99%.【Conclusion】The application of the optimal concentration of CGG under cold water stress at the booting stage promoted leaf growth of cold-region japonica rice at the full heading stage and increased the population nitrogen photosynthetic efficiency, which was beneficial to dry matter accumulation and yield formation after heading stage, thereby reducing the loss of cold-region japonica rice under cold water stress at booting stage and improving the temperature production efficiency of cold-region japonica rice.     

蛋鸡育成期饲喂的10个黄金法则

现代蛋鸡养殖对蛋鸡提出了越来越高的要求 :20～60 周产蛋要达到 260 枚以上、体重更小、采食量更低、开产更早、初产蛋更大. 如何达到或接近这些目标,蛋鸡育成阶段的饲喂至关重要. 根据 RichardMiles 教授的研究和经验,如下 10 个关键点称得上育成期蛋鸡饲喂的黄金法则.     

青蒿中番茄斑萎病毒和烟草花叶病毒的分子鉴定及相关序列分析

番茄斑萎病毒(tomato spotted wilt virus, TSWV)和烟草花叶病毒(tobacco mosaic virus, TMV)是2种重要的植物病原病毒, 对多种经济作物的产量和品质均造成严重影响。2021年-2022年, 在云南省丽江市烟草种植区不同烟区采集叶片黄化、皱缩以及无症状的青蒿Artemisia caruifolia样品共计14份, 利用免疫金标速测卡和RT-PCR对其病原病毒进行检测。利用免疫金标速测卡检测结果显示, 在所检样品中有9份样品检测出TSWV, 检出率为64.28%, 有3份样品检测出TMV, 检出率为21.43%, 2种病毒复合侵染的检出率同样为21.43%;利用RT-PCR对复合侵染的3份样品进行分子检测, 结果显示, 在3份复合侵染青蒿样品中获得3条TSWV N基因序列、3条TMV cp基因序列和2条TMV RdRp部分序列。TSWV青蒿分离物与分离自云南的TSWV-2分离物相似性最高, 为99.6%;TMV青蒿分离物与分离自辽宁的TMV-Shenyang分离物和分离自云南的TMV-Yongren-1相似性最高, 均大于99.4%。这是首次发现TSWV和TMV 2种不同属病毒复合侵染青蒿。     

敲除TMS5基因获得温敏不育粳稻新材料

【目的】水稻温敏不育系的选育是两系杂交稻育种工作中的关键环节。TMS5是控制温敏不育的重要基因,在生产上也应用较广。为了加快水稻温敏不育系的选育进程,【方法】利用CRISPR/Cas9技术,在武运粳7号背景下对TMS5基因进行编辑。【结果】通过测序从22株T0代中筛选获得6株纯合的突变体,分析发现6个纯合的突变体产生了相同的遗传变异,都在TMS5基因第2外显子44 bp和45 bp之间插入碱基"A",导致翻译提前终止。通过细胞学观察和人工辅助授粉证实获得的株系花粉败育而雌配子正常发育。【结论】这些结果表明对温敏不育基因TMS5基因进行编辑可以快速获得粳型温敏雄性不育系。     

Grain Quality as Affected by Down-regulation of Expression of Different ALK Alleles in indica Rice (Oryza sativa L.)

【Objective】Gelatinization temperature (GT) is one of the key physicochemical properties in rice quality, which is mainly regulated by ALK (SSII-3) gene. In general, there are two ALK alleles among indica cultivars. To detect their functional differentiation in indica rice,【Method】Zhenshan 97B (a high GT variety carrying ALKc allele) and Longtefu B (a low GT variety carrying ALKb allele), were used as receptors for the generation of transgenic rice with down-regulation of ALK expression by RNA interference (RNAi).【Result】Down-regulation of ALK gene significantly decreased the GT of the transgenic lines. Due to the difference of original GT between the two receptors, the GT of transgenic rice lines derived from Zhenshan 97B (a high GT variety) decreased significantly, but it is slightly decreased in transgenic plants derived from Longtefu B (a low GT variety). The differential scanning calorimetry (DSC) results showed that the initial temperature of RNAi transgenic rice was significantly lower than the corresponding control and the transgenic lines were gelatinized in advance. The peak value of GT(Tp) in RNAi rice grains was significantly lower than that of the control under Zhenshan 97B background. However, Tp of RNAi rice grains under Longtefu B background was significantly lower than the control to a lesser extent. Also, down-regulation of ALK expression had a significant effect on rice physical-chemical characteristics. An increase of apparent amylose content in RNAi transgenic plants was detected due to the decreased expression of ALK gene. Besides, the pasting properties showed that down-regulation of ALK gene had obvious effects on peak viscosity and breakdown value, improving the taste of the transgenic rice. The gel consistency was significantly different among Zhenshan 97B RNAi lines and their parents, but no difference was found in Longtefu-derived transgenic lines.【Conclusion】RNA interference to ALK allele expression had a significant effect on rice quality, especially the gelatinization characters. Down-regulated expression level of ALKc allele would cause larger variation of physical-chemical characteristics between transgenic rice and their parent than that of ALKb allele.