Molecular Cytogenetic Identification of a Wheat-Thinopyron intermedium （Host） Barkworth ＆ DR Dewey Partial Amphiploid Resistant to Powdery Mildew

Abstract: Wide cross and molecular cytogenetic methods were used to transfer the powdery mildew resistance gene from Thinopyron intermedium(Host) Barkworth & DR Dewey to wheat. Among the progeny of crossing common wheat (Triticum aestivum L.) Yannong 15 with Th. intermedium, a partial amphiploid E990256, with resistance to powdery mildew, was developed. It had 56 chromosomes and could form 28 bivalents in pollen mother cells at metaphase I of meiosis. Resistance verification by race 15 at the seedling stage and by mixed strains of Erysiphales gramnis DC. f. sp. tritici Em. Marchal at the adult stage showed it was immune to powdery mildew at both stages. Gene postulation via 21 isolates of E. gramnis f. sp. tritici and 29 differential hosts showed it was nearly immune to all the isolates used, and its resistance pattern was different from all the mildew resistance genes used, which indicated it probably contained a new resistance gene to powdery mildew. Biochemical verification showed it might convey different Th. intermedium chromosomes from those of the wheat‐ Th. intermedium partial amphiploids Zhong 1–5. Genomic in situ hybridization analysis by using St genomic DNA as the probe showed E990256 contained a recombination genome of St and E. (Managing editor: Wei WANG)     

New Species of Meconopsis （Papaveraceae） from Laojun Shan and Yao Shan, Northern Yunnan, China

Two new species,Meconopsis muscicola and M.yaoshanensis (Papaveraceae),are described and characterized.Differences separating them from similar species are discussed and photos showing their diagnostic...     

Phylogeny of Ptychostomum （Bryaceae,Musci） inferred from sequences of nuclear ribosomal DNA internal transcribed spacer （ITS） and chloroplast rps4

The phylogeny of Ptychostomum was first spacer （ITS） region of the nuclear ribosomal （nr） DNA DNA rps4 sequences. Maximum parsimony, maximum undertaken based on analysis of the internal transcribed and by combining data from nrDNA ITS and chloroplast likelihood, and Bayesian analyses all support the conclusion that the reinstated genus Ptychostomum is not monophyletic. Ptychostomum funkii （Schwagr.） J. R. Spence （≡ Bryum funkii Schwaigr.） is placed within a clade containing the type species of Bryum, B. argenteum Hedw. The remaining members of Ptychostomum investigated in the present study constitute another well-supported clade. The results are congruent with previous molecular analyses. On the basis of phylogenetic evidence, we agree with transferring B. amblyodon Mull. Hal. （≡ B. inclinatum （Brid.） Turton≡ Bryum archangelicum Bruch ＆ Schimp.）, Bryum lonchocaulon Mull. Hal., Bryum pallescens Schleich. ex Schwaigr., and Bryum pallens Sw. to Ptychostomum.     

Phylogenetic Relationships of the Genus Paramesotriton （Caudata： Salamandridae） with the Description of a New Species from Qixiling Nature Reserve,Jiangxi, Southeastern China and a Key to the species

The matrilineal genealogy of the genus Paramesotriton is hypothesized based on DNA sequences from mitochondrial NADH subunit two （ND2） and its flanking tRNAs （tRN^Arp and a partial tRNA^Ala）. The genealogy identifies a highly divergent, unnamed lineage from Qixiling Nature Reserve, Jiangxi, China and places it as the sister taxon of P. chinensis. The newly discovered population differs from other congeners by several features of external morphology including having large clusters of dark brown conical warts on the dorsum of the head, lateral surface of the body and dorsolateral ridges. Its intermittent dorsal vertebral ridge is the same color as other parts of the dorsum and tail narrows gradually from the base to the tip. Further, the new population differs from all congeners by an uncorrected P-distance of more than 9.38% in ND2. Consequently, we describe the new species of Asian warty newt （Salamandridae） as Paramesotriton qixilingensis sp. nov.     

Description of a New Species of the Genus Brachytarsophrys Tian and Hu, 1983 （Amphibia： Anura： Megophryidae） from Southern China Based on Molecular and Morphological Data

A new species, Brachytarsophrys popei sp. nov., is described based on a series of specimens collected from Mount Jinggang, Jiangxi Province, Taoyuandong Nature Reserve, Hunan Province and Nanling Nature Reserve, Guangdong Province, China. The new species can be easily distinguished from other known congeners by morphology, morphometrics and molecular data of the mitochondrial 16S rRNA gene. It is characterized by its relatively small size with 86.2 mm in snout-vent length in adult female and 70.7 mm-83.5 mm in males; vomerine teeth bearing on two markedly elevated ridges, which projecting behind far beyond the posterior level of the choanae, widely separated by a distance nearly 1.5 times length of one; margin of tongue de~ply notched behind; toes about one-third to two-thirds webbed in males, at most one-third webbed in female; the webs extending as a wide fringes along either side of toes; upper eyelid with tubercles, one of which is enlarged and becoming a remarkably prominent, bluntly conical light- yellow horn; black tiny nuptial spines on the dorsal surface of the first finger and second finger base, single vocal sac in males; gravid females bear pure yellowish oocytes; tadpoles with a transverse white stripe on ventral surface and two longitudinal white stripes along the sides of body. The new species represents the fifth known Brachytarsophrys species.     

小麦白粉病抗性基因的聚合及其分子标记辅助选择

采用了在早代进行抗性鉴定、淘汰感病株、保留抗病株继续种植、较晚世代（F4代）进行抗性鉴定结合分子标记辅助选择的策略,提高了选到聚合抗性植株的效率。利用与Pm2、Pm4α、Pm8、Pm21紧密连锁或共分离的RFLP标记和PCR标记（SCAR标记）,对含有这些基因的优良品系间配制的杂交组合的F4代进行了分子标记辅助育种选择,并结合抗性鉴定,筛选到14株Pm4α Pm2I的植株,16株Pm2 Pm4α的植株,6株Pm8 Pm21的植株。应该引起注意的是,Pm2 Pm4α对混合白粉病菌的抗性达到高抗至免疫水平,而Pm2和Pm4α单独存在时抗性较差,表明聚合抗病基因植株的抗性提高了,为培育具有持久性抗性的品系或品种提供了新思路,它在实践和理论研究上都将具有重要意义。     

来自西尔斯山羊草的抗小麦白粉病基因Pm57抗性丧失突变体的筛选与鉴定

小麦近缘种属来源的抗白粉病基因是培育小麦抗病品种,防治白粉病危害的最重要基因来源。Pm57是位于西尔斯山羊草2S^s#l染色体长臂上的一个外源基因,对小麦白粉病具有苗期和成株期广谱抗性。为了创制Pm57白粉病抗性丧失突变体,利用基于基因突变体的植物抗病基因克隆新兴技术分离Pm57基因,选用0.625%的甲基磺酸乙酯(EMS)对1万粒小麦-西尔斯山羊草Pm57易位系89(5)69种子进行了诱变处理,M1大田密播种植,收获了1598个M2可育株系。初步对其中300个M2株系进行苗期白粉病抗性接种鉴定,并利用2个Pm57基因特异分子标记X2L4g9P4/HaeⅢ和X284274及小麦全国区试品系DUS测试所用的42对SSR核心引物对Pm57抗性丧失突变体进行鉴定,筛选出来自27个M2株系的真实抗性丧失突变体70个,Pm57基因抗性丧失突变体频率达到9.0%。本研究所获得的白粉病抗性丧失突变体为Pm57基因的后续克隆与抗白粉病分子机理研究提供了重要的材料基础。     

精细定位甜瓜白粉病抗性基因Pm-M

以抗白粉病甜瓜品种MR1与感白粉病新疆地方品种新密1号为亲本,构建BC1P2和F2群体,研究白粉病菌Px1B(P.xanthii race 1B)的抗性遗传规律.以BC1P2与F2群体为试验材料,利用BSA(Bulked segregation analysis)结合分子标记技术发掘多态性信息,并开发分子标记进行抗性基...     

几个四倍体小麦-山羊草双二倍体及其部分亲本的抗小麦白粉病基因分析

用离体叶段接种方法鉴定了11个四倍体小麦一山羊草双二倍体、波斯小麦PS5、硬粒小麦DR147、5份山羊草、杂交高代材料Am9／莱州953*^2F5和(DR147／Ael4)／／莱州953*^2F4对20个具有不同毒力白粉菌株的抗谱。通过与含有已知抗病基因品种或品系的反应模式比较,推测Am9／莱州953*^2F5含有Pm4b,波斯小麦PS5含有Pm4b与一个未知抗病基因组合;(DR147／Ael4)／／莱州953*^2F4和硬粒小麦DR147含有Pm4a和一个未知抗病基因组合;尾状山羊草Ael4和小伞山羊草Y39抗所有白粉菌株,由于迄今还没有在尾状山羊草和小伞山羊草中鉴定出抗白粉病基因,推测这2份山羊草含有新的抗白粉病基因。除Am9外,在其它双二倍体中波斯小麦或硬粒小麦的抗性部分受到抑制。山羊草的抗性部分或完全量到抑制。     

粗山羊草抗条锈病新基因YrY206遗传分析和微卫星 标记

从小麦野生近缘属——粗山羊草中挖掘小麦条锈病抗病基因, 拓展小麦抗病性的遗传基础。利用抗小麦条锈病与感小麦条锈病的粗山羊草间杂交, 从粗山羊草[Aegilops tauschii (Coss.) Schmal] Y206中鉴定出1个显性抗小麦条锈病基因, 暂定名为YrY206。应用分离群体分组法(Bulked segregant analysis, BSA)筛选到Wmc11a、Xgwm71c、Xgwm161和Xgwm183标记, 与该基因之间的遗传距离分别为4.0、3.3、1.5和9.3 cM。根据连锁标记所在小麦微卫星图谱的位置, YrY206被定位在3DS染色体上。分析基因所在染色体的位置、抗病性特征, 认为YrY206是一个新的抗小麦条锈病基因。     

一个来自硬粒小麦的抗白粉病基因的鉴定和微卫星标记

在起源于硬粒小麦(Triticum durum Desf.accession DR147)和尾状山羊草(Aegilops caudata L.acc.Ae14)合成的双二倍体与普通小麦品种"莱州953"杂交组合衍生的BC3F2群体中鉴定了一个抗小麦白粉病基因.遗传分析表明,该基因为一个显性单基因.应用分离群体分组法(BSA),鉴定了两个与抗病基因紧密连锁的微卫星标记Xgwm311和Xgwm382,它们与抗病基因的遗传距离分别为5.9 cM和4.9 cM.对双二倍体亲本硬粒小麦DR147和尾状山羊草Ae14及轮回亲本"莱州953"的DNA PCR扩增结果表明,与抗病基因相关的微卫星标记Xgwm311和Xgwm382来源于硬粒小麦DR147.根据已发表的小麦微卫星图谱和对"中国春"缺-四体系DNA扩增结果,抗病基因被定位在小麦2A染色体的长臂末端.     

一个来自硬粒小麦的抗白粉病基因的鉴定和微卫星标记

在起源于硬粒小麦(TriticumdurumDesf.accessionDR147)和尾状山羊草(AegilopscaudataL.acc.Ae14)合成的双二倍体与普通小麦品种“莱州953”杂交组合衍生的BC3F2群体中鉴定了一个抗小麦白粉病基因。遗传分析表明,该基因为一个显性单基因。应用分离群体分组法(BSA),鉴定了两个与抗病基因紧密连锁的微卫星标记Xgwm311和Xgwm382,它们与抗病基因的遗传距离分别为5.9cM和4.9cM。对双二倍体亲本硬粒小麦DR147和尾状山羊草Ae14及轮回亲本“莱州953”的DNAPCR扩增结果表明,与抗病基因相关的微卫星标记Xgwm311和Xgwm382来源于硬粒小麦DR147。根据已发表的小麦微卫星图谱和对“中国春”缺-四体系DNA扩增结果,抗病基因被定位在小麦2A染色体的长臂末端。     

小麦抗白粉病基因SSR标记定位

从波兰小麦与普通小麦感病品系‘中13’杂交后代中选育出小麦抗源材料WP6192,田间表现高抗白粉病,遗传分析表明其含有1对显性抗白粉病基因,暂定名为PmWP6192。用分离群体分组分析法筛选多态性SSR标记,并用F2代群体进行遗传连锁分析。结果表明,SSR标记Xgwm515、Xgwm249、Xgwm425、Xgwm372、Xg-wm630、Xbarc10、Xbarc220、Xbarc201和Xbarc353与PmWP6192基因连锁,相距最近的标记是Xbarc353,遗传距离为2.3cM。根据连锁标记所在的染色体位置,将PmWP6192定位于2AL染色体。通过基因来源分析和2AL染色体上已有抗白粉病基因的等位性分子检测,推断PmWP6192可能是1个新的抗白粉病基因。     

小偃麦衍生品系CH7086抗白粉基因的遗传及SSR分析

CH7086是兼抗白粉病、条锈病的小麦新品系,衍牛于来自十倍体长穗偃麦草的八倍体小偃麦与普通小麦的杂种后代.温室接种鉴定结果显示,CH7086对白粉病菌系E09、E21、E26均表现为免疫,且其抗件来自长穗偃麦草.抗性遗传分析表明CH7086的白粉病抗性由1对显性基因控制,暂定名为MlCH86.应用分离群体分组法(BSA)对从CH5241×CH7086的F2中随机选取的95个单株进行微卫星标记检测,发现位于2BL、2DL上的SSR位点Xbarc159在双亲和抗、感池间有特异性,并与抗性基因MlCH86连锁,其遗传距离为10.8 cM.用中国春第2部分同源群的缺体-四体系和双端体系进行验证,进一步将MlCH86定位在2BL上.用白粉病菌系E21、E26接种鉴定表明,MlCH86的抗性反应明显不同于2BL上已命名的抗性基因Pm6、Pm33.根据抗性基因的来源、染色体位置及抗性反应,初步推断存在于CH7086的抗性基因来自长穗偃麦草,它不同于已有的抗白粉病基因,可能是一个新基因.