防治苦瓜枯萎病的拮抗放线菌分离筛选及鉴定

以苦瓜枯萎病菌为靶标菌,通过对峙培养试验和发酵滤液抑菌试验对分离自苦瓜根际土壤的放线菌进行筛选。候选菌株0250具有广谱抗真菌活性,根据培养特征、生理生化特性以及与同源性相近的菌株进行平均核苷酸一致性分析,被鉴定为Streptomyces rhizosphaericus,并评估了该菌株在温室和田间对苦瓜的促生长和防治枯萎病效果。结果表明: 链霉菌菌株0250对苦瓜枯萎病菌的平板抑制率为69.2%,对17种植物病原真菌的平板抑制率达64.3%~85.6%;该菌株的菌悬液处理能促进盆栽和田间苦瓜植株根、茎生长发育,提升产量,对苦瓜枯萎病的防病效果分别为66.9%和61.5%。预先用菌株0250菌悬液处理土壤再接种病原菌,对土壤尖镰孢菌数量抑制率达62.1%,显著提高了苦瓜幼苗苯丙氨酸解氨酶、过氧化物酶和β-1,3-葡聚糖酶活性以及根系活力。总之,菌株0250是一株对苦瓜枯萎病具有巨大生防潜力的放线菌资源。     

Nicotine inhibition of carotenoid cyclization in Cucurbita ficifolia cotyledons

Nicotine inhibits carotenoid cyclization in greening cucurbit cotyledons resulting in the accumulation of acyclic and monocyclic carotenes. Chlorophyll synthesis is also inhibited by the alkaloid.     

Long-read genome assembly and genetic architecture of fruit shape in the bottle gourd

The bottle gourd (Lagenaria siceraria, Cucurbitaceae) is an important horticultural crop exhibiting tremendous diversity in fruit shape. The genetic architecture of fruit shape variation in this species remains unknown. We assembled a long-read-based, high-quality reference genome (ZAAS_Lsic_2.0) with a contig N50 value over 390-fold greater than the existing reference genomes. We then focused on dissection of fruit shape using a one-step geometric morphometrics-based functional mapping approach. We identified 11 quantitative trait loci (QTLs) responsible for fruit shape (fsQTLs), reconstructed their visible effects and revealed syntenic relationships of bottle gourd fsQTLs with 12 fsQTLs previously reported in cucumber, melon or watermelon. Homologs of several well-known and newly identified fruit shape genes, including SUN, OFP, AP2 and auxin transporters, were comapped with bottle gourd QTLs.     

大棚瓠瓜CO2加富的生理生态效应

春季对大棚瓠瓜CO2,可促进植株的生长发育,株高,茎粗增幅分别达到3．90％－19．48％和11．58％－27．37％,叶片厚度及叶面积也分别增加38．46％－69．23％和26．09％－49．38％;第一雌花着生节位平均降低2．6－4．0节,平均单果重增加4．05％－19．62％,产量 提高8．65％－19．47％,在1000μmol.mol^-1范围内,CO2浓度每增加100μmol.mol^-1,单果重和产量分别增加31．97g和68．39kg.667m^-2,第一雌花着生节位降低0．35节,在1000μmol.mol^-1浓度下,瓠瓜光合速率和羧化速率均达最高值,春季大棚瓠瓜CO2适宜施用浓度为1000μmol.mol^-1左右。     

Phytophthora melonis Associated with Fruit and Vine Rot Disease of Pointed Gourd in India as Revealed by RFLP and Sequencing of ITS Region

Pointed gourd is an important tropical high value vegetable crop, which is mainly affected by fruit and vine rot disease in field conditions. Causal organism of this devastating disease is Phytophthora melonis as revealed through morphological criteria as well as by molecular tools based on the restriction fragment length polymorphism (RFLP) of non‐coding Internal Transcriber Spacer (ITS) region and ITS sequencing. Sequencing of ITS region of our Ph. melonis isolate has 100% similarity with the five isolates of GenBank including a Ph. sinensis. The pathogen, Ph. melonis, is a new report from India and as regards host ranges a possible new report globally.     

苦瓜种质遗传多样性的RAPD和ISSR分析

采用RAPD和ISSR分子标记技术对38份苦瓜种质进行遗传多样性分析。结果表明:10个RAPD和10个ISSR引物分别扩增出93条和81条带,多态性比率分别为50.54%和61.29%;RAPD和ISSR标记检测供试材料的遗传相似性系数(GS)范围,分别为0.287~1和0.221~1,ISSR(平均GS值0.672)检测多态性效果高于RAPD(平均GS值0.694)。RAPD标记聚类分析将供试种质分为3个类群6组,分类结果与苦瓜瓜瘤的表型分类比较相似;ISSR标记聚类分析将供试种质分为3个类群7组,ISSR标记划分类群与形态上以颜色分类比较接近。RAPD和ISSR标记的遗传相似性系数呈显著相关(r=0.550)。两个标记整合后聚类分析可检测到更大的遗传变异,结果与苦瓜的农艺性状分类和地理分布有一定的相关性。     

Primary Structure of 6.5k-Arginine/Glutamate-rich Polypeptide from the Seeds of Sponge Gourd (Luffa cylindrica)

The amino acid sequence of 6.5k-arginine/glutamate rich polypeptide (6.5k-AGRP) from the seeds of sponge gourd (Luffa cylindrica) has been determined. The 6.5k-AGRP consists of a 47-residue polypeptide chain containing two disulfide bonds, and a molecular mass calculated to be 5695 Da, which fully coincides with a value of [Μ + H] ⁺ = m/z 5693.39 obtained by matrix-assisted laser desorption ionization time of flight mass spectrometry (MALDI-TOF MS). The mass spectrometric evidence indicated that 6.5k-AGRP is also present partially truncated at the C-terminus. In our preparations, approximately half of the polypeptide molecules have the C-terminal sequence Arg-Arg-Glu-Val-Asp; the other half lack Val-Asp and end with the glutamic acid, making a total of 45 residues in the polypeptide chain. The two disulfide bonds connect Cys¹² to Cys³³ and Cys¹⁶ to Cys²⁹. Comparison of the amino acid sequence of 6.5k-AGRP with those of the other known proteins included in the PIR protein sequence database showed that it is related to the amino acid sequence of the N-terminal region encoded by the first exon of the cocoa (Theobroma cacao) and cotton seeds vicilin genes, sharing a characteristic two Cys-Xaa-Xaa-Xaa-Cys motif.     

The bottle gourd genome provides insights into Cucurbitaceae evolution and facilitates mapping of a Papaya ring‐spot virus resistance locus

Bottle gourd (Lagenaria siceraria) is an important vegetable crop as well as a rootstock for other cucurbit crops. In this study, we report a high‐quality 313.4‐Mb genome sequence of a bottle gourd inbred line, USVL1VR‐Ls, with a scaffold N50 of 8.7 Mb and the longest of 19.0 Mb. About 98.3% of the assembled scaffolds are anchored to the 11 pseudomolecules. Our comparative genomic analysis identifies chromosome‐level syntenic relationships between bottle gourd and other cucurbits, as well as lineage‐specific gene family expansions in bottle gourd. We reconstructed the genome of the most recent common ancestor of Cucurbitaceae, which revealed that the ancestral Cucurbitaceae karyotypes consisted of 12 protochromosomes with 18 534 protogenes. The 12 protochromosomes are largely retained in the modern melon genome, while have undergone different degrees of shuffling events in other investigated cucurbit genomes. The 11 bottle gourd chromosomes derive from the ancestral Cucurbitaceae karyotypes followed by 19 chromosomal fissions and 20 fusions. The bottle gourd genome sequence has facilitated the mapping of a dominant monogenic locus, Prs, conferring Papaya ring‐spot virus (PRSV) resistance in bottle gourd, to a 317.8‐kb region on chromosome 1. We have developed a cleaved amplified polymorphic sequence (CAPS) marker tightly linked to the Prs locus and demonstrated its potential application in marker‐assisted selection of PRSV resistance in bottle gourd. This study provides insights into the paleohistory of Cucurbitaceae genome evolution, and the high‐quality genome sequence of bottle gourd provides a useful resource for plant comparative genomics studies and cucurbit improvement.