橡胶树胶孢炭疽菌T-DNA插入突变体库构建及其致病缺陷转化子筛选

【目的】进一步研究橡胶树胶孢炭疽菌致病分子机理。【方法】通过含ILV1基因(具氯嘧磺隆抗性)的pSULF.gfp双元载体农杆菌AGL-1介导进行橡胶树胶孢炭疽菌遗传转化,利用氯嘧磺隆抗性标记筛选转化子,对转化子PCR验证及荧光显微观察;采用离体古铜期橡胶树叶无伤接种法进行致病性缺陷转化子筛选,并对转化子进行遗传稳定性检测。【结果】获得含3 721个转化子的T-DNA插入突变体库,转化效率为150 400个转化子/106孢子,从3 721个转化子中筛选得到致病性缺陷转化子25个;随机选取20个转化子进行遗传稳定性测定,在不含氯嘧磺隆PDA平板上继代培养10次后仍保持氯嘧磺隆抗性,且表型稳定,表明插入外源基因能够稳定遗传。【结论】可以利用根癌农杆菌介导橡胶孢炭疽菌转化,构建橡胶树胶孢炭疽菌T-DNA插入突变体库,筛选致病缺陷突变菌,为进一步研究该菌致病相关基因提供材料。     

农杆菌介导的获取疏绵状嗜热丝孢菌插入突变体体系的建立

[目的]建立疏绵状嗜热丝孢菌的稳定遗传转化体系并获得插入突变体.[方法]利用农杆菌介导的方法建立疏绵状嗜热丝孢菌的遗传转化体系 ;分别通过Southern杂交、克隆转移DNA(T-DNA)侧翼序列来确定T-DNA在疏绵状嗜热丝孢菌基因组中的拷贝数和插入位点.[结果]成功建立了可靠的疏绵状嗜热丝孢菌的遗传转化体系.共培养过程中使用萌发孢子是成功建立疏绵状嗜热丝孢菌遗传转化体系的必要条件.疏绵状嗜热丝孢菌萌发的孢子与农杆菌在28℃共培养48h时,转化效率最高.乙酰丁香酮(AS)在农杆菌预培养及疏绵状嗜热丝孢菌萌发的孢子与农杆菌的共培养阶段都是必需的,且在共培养阶段当AS浓度为500 μM时转化效率最高.Southern杂交验证表明,79.2％的转化子为T-DNA单拷贝插入,且通过热不对称PCR (TAIL-PCR)分析得出T-DNA在该菌基因组中的插入位点是随机的.通过该转化系统筛选到部分表型突变体.[结论]我们首次报道了利用ATMT技术成功转化嗜热真菌-疏绵状嗜热丝孢菌,证明了该方法是一种简单有效的获得插入突变体的方法,并为该嗜热真菌进行基因定位提供了工具.     

根癌农杆菌介导的轮枝镰孢菌遗传转化及T-DNA插入突变体的筛选

建立并优化了农杆菌介导转化轮枝镰孢菌Fusarium verticillioides获得T-DNA插入突变体的体系,在镰孢菌孢子浓度106个/mL、农杆菌OD600=0.15-0.20、乙酰丁香酮浓度为200μmol/mL的条件下共培养36h转化率最高,可达60-120个/106个孢子。共获得转化子1000多个,连续转接5代能够稳定遗传。PCR验证潮霉素B抗性基因已整合进转化子基因组DNA中,部分转化子表现为生长和形态异常。该转化体系的建立为研究该菌的致病机制和功能基因分析奠定了基础。     

根癌农杆菌介导的轮枝镰孢菌遗传转化及T-DNA插入突变体的筛选

建立并优化了农杆菌介导转化轮枝镰孢菌Fusarium verticillioides获得T-DNA插入突变体的体系，在镰孢菌孢子浓度106个/mL、农杆菌OD600=0.15-0.20、乙酰丁香酮浓度为200μmol/mL的条件下共培养36h转化率最高，可达60-120个/106个孢子。共获得转化子1000多个，连续转接5代能够稳定遗传。PCR验证潮霉素B抗性基因已整合进转化子基因组DNA中，部分转化子表现为生长和形态异常。该转化体系的建立为研究该菌的致病机制和功能基因分析奠定了基础。     

农杆菌介导的出芽短梗霉遗传转化及高效筛选聚苹果酸高产菌株

建立根癌农杆菌介导的出芽短梗霉遗传转化方法及T-DNA突变库,高效筛选聚苹果酸高产菌株及功能基因。通过含潮霉素和草铵磷抗性基因的农杆菌转化出芽短梗霉,抗性压力筛选及PCR验证建立根癌农杆菌介导的出芽短梗霉遗传转化方法,结合发酵液p H与聚苹果酸含量响应变化,微孔板高效筛选高产聚苹果酸的T-DNA插入突变株,基因组步移确定T-DNA插入位点及功能基因。结果获得遗传稳定的抗性基因菌株,每107个细胞可获得80-120个转化子,出芽短梗霉H27号T-DNA突变株聚苹果酸摇瓶发酵产量提高24.5%,基因组步移证实糖酵解途径磷酸甘油酸变位酶基因被破坏。成功建立了根癌农杆菌介导的出芽短梗霉遗传转化方法和T-DNA插入突变库,结合高效筛选方法为聚苹果酸合成功能基因挖掘及高产机制解析奠定基础。     

拟南芥光形态突变体的筛选与基因鉴定

以哥伦比亚(Columbia)野生型拟南芥(Arabidopsis thaliana)为实验材料,用含有激活标记双元质粒pCB260的农杆菌浸花进行转化,构建拟南芥T-DNA插入突变体库.通过突变体的筛选和表型分析,获得了两株光形态突变体,子叶下胚轴伸长的光抑制效应减弱.通过TAIL-PCR(thermal asymmetric interlaced-PCR)技术,成功扩增出突变植株T-DNA插入位点侧翼序列,经NCBI序列比对,T-DNA分别插在CRY1第一和第三外显子部位.突变体的表型分析及PCR鉴定结果表明,T-DNA插入CRY1并影响到突变植株的光形态建成.     

根癌农杆菌介导的哈茨木霉菌遗传转化的研究

利用根癌农杆菌EHA105进行了哈茨木霉Th-33的转化，在优化的转化条件下，EHA105对木霉菌的转化效率约45-100个转化子/106个孢子。本实验室利用该方法已建立了含4000多个转化子的木霉T-DNA插入突变体库。随机挑选24个转化子进行遗传稳定性分析，结果显示转化子经过5代无选择压力连续转接后都能在选择平板上正常生长；潮霉素抗性基因的PCR扩增和Southern blot杂交分析表明，木霉转化子含有该基因，Southern blot杂交进一步表明转化子多为单拷贝随机插入。该转化体系的改进将有利于木霉菌生防功能基因的克隆和作用机制的研究。     

菰黑粉菌T-DNA突变体库的构建及分析

通过建立适用于菰黑粉菌Ustilago esculenta的农杆菌介导遗传转化(Agrobacterium tumefaciens-mediated transformation,ATMT)体系,构建菰黑粉菌T-DNA插入突变体库。针对性地筛选双核菌丝形成缺陷型转化子,并对T-DNA插入位点进行分析,为研究菰黑粉菌二态型转换的分子调控机理打下基础。以构建的菰黑粉菌自融合菌株TSP为出发菌株,以含有遗传霉素(G418)抗性基因(neo)的质粒为载体,通过ATMT构建菰黑粉菌T-DNA突变体库,并对诱导剂乙酰丁香酮(AS)浓度、转化的共培养时间、农杆菌浓度和菰黑粉菌芽孢子浓度等建库影响因素进行单因素条件试验,筛选最优条件;对继代培养的转化子基因组中的遗传霉素抗性基因进行PCR检测,验证转化子遗传稳定性;对突变体库中的转化子双核菌丝生长情况进行观察,测定其双核菌丝形成能力;对上述双核菌丝形成缺陷型转化子进行基因组重测序,分析其T-DNA插入位点。当遗传霉素浓度为75 μg/mL时,菰黑粉菌的生长被完全抑制。当AS浓度为100 μg/mL、共培养时间为24 h、孢子浓度为1×10⁵个/mL、农杆菌浓度为OD₆₀₀=0.3时,转化获得转化子的效率最高,为菰黑粉菌ATMT最优转化体系。在突变体库中随机选取7株转化子在YEPS固体平板上继代培养10代,仍然能够通过PCR的方法在基因组中检测到neo基因片段,说明T-DNA成功插入TSP菌株基因组且稳定遗传。针对部分转化子进行双核菌丝生长能力测定,有5株转化子的菌落边缘没有形成菌丝,而TSP菌株的边缘长出了明显的菌丝,说明这5株转化子双核菌丝形成的能力丧失。对上述双核菌丝形成缺陷型转化子中的其中2个(TSP-1、TSP-23)进行基因组重测序,比对结果显示,TSP-1插入位点位于其交配型基因a位点的(GenBank: MK097140.1) mfa2.1基因的外显子区域,TSP-23插入位点位于两个假定蛋白之间。本研究优化了菰黑粉菌ATMT遗传转化体系,构建了菰黑粉菌T-DNA插入突变体库;筛选到双核菌丝生长缺陷型突变体,并通过基因组重测序的手段明确了相关突变体的T-DNA插入位点,为后续菰黑粉菌二型态转换的调控机理研究奠定了一定的基础。     

烟曲霉突变体库的构建及伊曲康唑耐药菌的筛选

目的构建烟曲霉突变体库并筛选耐药突变子,初步探讨烟曲霉的耐药机制。方法利用根瘤农杆菌T-DNA介导的插入突变构建烟曲霉突变体库,用伊曲康唑对突变体库进行筛选,挑取烟曲霉耐药突变株。结果利用根瘤农杆菌T-DNA插入突变,本研究获得了1805株突变子,诊断PCR显示突变子基因组DNA上均含有潮霉素标记,说明T-DNA均插入到了宿主的基因组上。通过筛选,本研究成功获得了16株烟曲霉伊曲康唑耐药菌,其中有两株对两性霉素B表现为不同程度的耐药性。结论通过构建烟曲霉突变体库以及耐药突变子筛选获得了16株烟曲霉耐药菌,为进一步研究烟曲霉的耐药机制奠定了基础。     

农杆菌介导的紫色红曲霉遗传转化体系的建立和优化

通过优化各种转化因素,建立了根癌农杆菌(Agrobacterium tumefaciens)介导红曲霉(Monascus)的高效转化体系:红曲霉在PDA培养基培养21 d后收集孢子,制备红曲霉孢子悬浮液,浓度为106个/mL,根癌农杆菌浓度为OD600值0.5,诱导剂AS浓度为100μmol/L,农杆菌与红曲霉在25℃共培养3 d。采用此转化体系构建了含有530多个转化子的红曲霉T-DNA插入突变体库。随机选取50株转化子菌株进行分子验证和稳定性检测,证明T-DNA成功插入红曲霉基因组DNA中,并能稳定遗传。最后,通过形态观察筛选出8株变异较大的菌株,为以后的红曲霉基因功能研究奠定了一定的基础。     

Characteristic analysis of transformants in T-DNA mutation library of <Emphasis Type="Italic">Monascus ruber</Emphasis>

Monascus ruber, a red mold species, has been widely used in the fields of food and medicine. In this research, we transformed Monascus ruber spores using Agrobacterium tumefaciens as a tool for random insertional mutagenesis with the hygromycin phosphotransferase gene as the selected marker. Three types of mutants including citrinin-producing mutants, mutants with abnormal aerial hyphae and pigment change mutants were screened for molecular analysis. Southern blot analysis showed that more than 83.3% of transformants contained single T-DNA insertions. The genomic DNA segments of the transformants flanking the T-DNA could be amplified from their left borders with TAIL-PCR. Homologous comparison using the Blast tool showed that none of the isolated DNA sequences had any similarity to each other, suggesting that the T-DNA was randomly integrated into the fungal genome, which provided the hypothetical reason for the variant phenotypes of the transformants. The successful creation of transformants with a single T-DNA tag insertion may help us to clone functional genes related to the metabolism and differentiation of Monascus spp., which will greatly facilitate the molecular analysis of this important fungus and the improvement of strains at the genetic level.     

Agrobacterium tumefaciens-mediated transformation of the plant pathogenic fungus, Magnaporthe grisea.

An effective way to study the infection mechanisms of fungal pathogens is to disrupt their genes via transformation in both targeted and random manners. This isolates the mutants that exhibit altered virulence. In this paper, we report the successful transformation of Magnaporthe grisea, the causal agent for rice blast, that is mediated by Agrobacterium tumefaciens. Employing the binary vector pBHt2, which carries the bacterial hygromycin B phosphotransferase gene under the control of the Aspergillus nidulans trpC promoter as a selectable marker, led to the production of 500 to > 1,000 hygromycin B-resistant transformants per 1 x 10(6) conidia of M. grisea. The transformation efficiency is correlated with the number of A. tumefaciens cells used, pre-treating bacterial cells with acetosyringone prior to co-cultivation with fungal spores, and the duration of co-cultivation. All of the transformants tested remained mitotically stable, maintaining their hygromycin B resistance after several generations of growth in the absence of hygromycin B. A genomic Southern blot analysis showed that over 60% of the transformants contained a single T-DNA insert on their genome. Considering the efficiency and flexibility of A. tumefaciens-mediated transformation (ATMT), this technique offers highly efficient means for characterizing the genes that are important for the pathogenicity of M. grisea.     

Efficient insertional mutagenesis system for the dimorphic pathogenic fungus Sporothrix schenckii using Agrobacterium tumefaciens

Sporothrix schenckii is a dimorphic pathogenic fungus that causes human and animal sporotrichosis globally. Here we developed and optimized an Agrobacterium tumefaciens-mediated transformation (ATMT) system of S. schenckii for insertional mutagenesis. The transformation efficiency reached more than 600 transformants per 10⁶ conidia. Using this protocol enabled us to obtain a large number of T-DNA insertional mutants within a short experimental period. Several mutants with altered phenotypes were obtained during the transformation experiments. The mutants displayed mitotic stability. Transferred DNA (T-DNA) flanking sequences were cloned by thermal asymmetric interlaced PCR (TAIL-PCR). Our results demonstrated that the ATMT system can be an effective tool for insertional mutagenesis in S. schenckii. This is the first report of a suitable mutagenesis system which may provide valuable mutants and information for both forward and reverse genetics research in the future for this medically important fungus.     

Towards a novel efficient T-DNA-based mutagenesis and screening system using green fluorescent protein as a vital reporter in the industrially important fungus <Emphasis Type="Italic">Trichoderma reesei</Emphasis>

Agrobacterium-mediated T-DNA transfer has been proven to be an efficient strategy for insertional mutagenesis and elucidation of gene function in filamentous fungi. The implementation of large-scale T-DNA insertional mutagenesis requires the development of high-efficient transformation and high-throughput screening procedures. Here, using green fluorescent protein (GFP) as a vital marker, a highly efficient T-DNA-based mutagenesis and screening system was developed in Trichoderma reesei. The uridine auxotrophic T. reesei M23 as the host was transformed with A. tumefaciens EH105 strain harboring a binary vector pC-OEP, which beared the pyrG gene for primary selection on minimal medium without uridine and the egfp gene for fluorescence-based rapid screening of the mitotically stable transformants. The efficiency of transformation was up to 10–20 transformants per 10⁵ target conidia. Microscopic examination revealed strong GFP expression and fluorescence emission in conidia, growing hyphae and mycelia. An effective and convenient screening procedure using 96-well plates and multilabel counter for fluorescence intensity counting was developed to rapidly identify the T-DNA tagged T. reesei mutants. Furthermore, the presence of T-DNA integration at random sites in the genome was confirmed by Southern blot analysis. This report of the T-DNA-based mutagenesis and rapid screening system using GFP as a vital reporter provides a promising strategy to speeding up the genome-scale T-DNA insertional mutagenesis and functional genomics analysis of this cellulolytic fungus T. reesei.     

农杆菌介导的红曲菌T-DNA插入突变库的构建及色素突变子的性质分析

以农杆菌EHA105为介导,将带有潮霉素抗性基因和gus基因的T-DNA片段转化到红色红曲菌(Monascusruber)中。通过转化条件的优化,成功构建了含有5132个转化子的T-DNA插入突变库。根据菌落颜色与色素分泌情况筛选到50株色素突变子,聚合酶链式反应(PCR)表明上述突变子均有T-DNA片段插入。经5代的继代培养后,94%的突变子具有稳定性(潮霉素抗性)。对突变子产色素和桔霉素能力的分析表明其分泌次生代谢产物的能力发生了较大变化。本方法的建立,为进一步深入研究红曲菌的代谢调节和基因功能奠定了基础。     

插入突变在水稻功能基因组学中的研究进展

构建饱和的基因突变体库是最直接、有效的分析鉴定基因功能的方法.根据插入突变源不同可分为T-DNA插入突变、转座子插入突变等.主要介绍这两种方法的原理及其在水稻功能基因组学研究中的应用和进展,并分析和讨论了插入突变在水稻功能基因组学研究中存在的困难和发展趋势.     

Agrobacterium tumefaciens-Mediated Transformation of the Lichen Fungus,Umbilicaria muehlenbergii

Transformation-mediated mutagenesis in both targeted and random manners has been widely applied to decipher gene function in diverse fungi. However, a transformation system has not yet been established for lichen fungi, severely limiting our ability to study their biology and mechanism underpinning symbiosis via gene manipulation. Here, we report the first successful transformation of the lichen fungus, Umbilicaria muehlenbergii, via the use of Agrobacterium tumefaciens. We generated a total of 918 transformants employing a binary vector that carries the hygromycin B phosphotransferase gene as a selection marker and the enhanced green fluorescent protein gene for labeling transformants. Randomly selected transformants appeared mitotically stable, based on their maintenance of hygromycin B resistance after five generations of growth without selection. Genomic Southern blot showed that 88% of 784 transformants contained a single T-DNA insert in their genome. A number of putative mutants affected in colony color, size, and/or morphology were found among these transformants, supporting the utility of Agrobacterium tumefaciens-mediated transformation (ATMT) for random insertional mutagenesis of U. muehlenbergii. This ATMT approach potentially offers a systematic gene functional study with genome sequences of U. muehlenbergii that is currently underway.     

Transformation of Coniothyrium minitans, a parasite of Sclerotinia sclerotiorum, with Agrobacterium tumefaciens

Coniothyrium minitans is a potential biological control agent of the plant pathogenic fungus Sclerotinia sclerotiorum. In this research, T-DNA insertional transformation of strain ZS-1 of C. minitans mediated by Agrobacterium tumefaciens was obtained, with optimization of spore maturity for transformation. After confirmation by PCR, transformants were subjected to Southern blot analysis, and results showed that more than 82.7% of transformants had single T-DNA insertions, and 12.1% of transformants had two copies T-DNA insertions. The genomic DNA segments of transformants flanking the T-DNA could be amplified from both borders with TAIL-PCR. Four types of mutants were screened and identified from the T-DNA insertional library, which comprised sporulation deficient mutants, pathogenicity deficient mutants, pigment change mutants and antibiotic deficient mutant, and some of the mutants were described; the number and frequency of each type of mutant from the library were calculated, and the frequency of each type is 3.27 x 10(-3), 1.0 x 10(-4), 1.4 x 10(-4), 2.5 x 10(-4), respectively. The successful creation of the T-DNA insertional transformation library may help us to unravel the interaction between a parasite and its host at a molecular level, to clarify the differentiation and development of this fungus, and to analyze and clone functional genes from the biocontrol microorganism in tripartite associations.     

稻瘟菌突变体T-DNA插入位点的精细定位和插入模式的研究

随机挑取已构建的37个稻瘟菌T-DNA突变株,利用TAIL-PCR技术扩增出T-DNA插入位点的侧翼序列,测序并进行比对分析。结果显示:成功获得扩增产物并测序的序列共有39条,T-DNA边界序列为稻瘟菌序列的有19条,其余20条为载体主干序列。在这有效扩增为稻瘟菌序列的19条中,有10条是T-DNA右侧翼序列与稻瘟菌序列,9条为左侧翼序列加稻瘟菌序列。分析T-DNA剪切位点,10条右侧翼序列中有9条的剪切位点相同,这与农杆菌介导T-DNA转化植物一样。而左边界的剪切位点就没有这种规律性。研究也精细确定了17个不同突变株的T-DNA插入位置,为后续的基因功能研究奠定基础。