Fumonisin producing Fusarium spp. and fumonisin contamination in commercial South African maize

van Rensburg B. Janse; McLaren N. W.; Flett B. C.; Schoeman A.

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Fumonisin producing Fusarium spp. and fumonisin contamination in commercial South African maize

机译：伏马菌素生产镰刀菌属。和南非商业玉米中伏马毒素的污染

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Fumonisins are secondary, carcinogenic metabolites produced primarily by Fusarium verticillioides and Fusarium proliferatum on maize worldwide. The natural occurrence of fumonisin-producing Fusarium spp. and fumonisin contamination of maize grain were quantified in selected maize cultivars from principal production areas of South Africa. Grain colonization by Fusarium spp. was determined using quantitative real-time PCR (qPCR) and contamination with fumonisins using HPLC analysis. Kernels from the 2007 samples were also plated onto Fusarium selective medium and subsequently, split plates containing PDA & CLA. The number of fumonisin producing Fusarium spp. were quantified and microscopically identified after 14 days. Simple linear regression analysis was used to determine the relationship between target DNA, fumonisins and the number of fumonisin producing Fusarium spp. using the plating out method. Results indicated high natural infection by fumonisin-producing Fusarium spp. and fumonisin concentrations in warmer production areas such as Northern Cape, North West and Free State Provinces. Spearman Ranking Correlations indicated that the responses of cultivars to colonization of grain by fumonisin producing Fusarium spp. varied over localities/seasons (r(s) = 0.42 to 0.64) suggesting that cultivars reacted differently to different environmental/inoculum conditions (disease potentials). Cultivars CRN3505 and DKC80-12B showed a degree of resistance to fungal infection. As with fungal colonization, Spearman Rank Correlations indicated the response of cultivars to fumonisin contamination to vary over localities/seasons (r(s) = 0.29 to 0.70). Cultivars DKC80-12B and LS8521B showed a degree of resistance to fumonisin contamination. Regression analysis yielded a significant relationship between HPLC data and qPCR, but not with the plating out of grain data suggesting the former to be a better indicator of potential fumonisin contamination. Site-specific, daily maximum temperature and rainfall data were provided by the ARC-Institute for Soil Water and Climate's meteorology office. No significant relationship between these weather parameters and colonization of grain by fumonisin producing Fusarium spp. was recorded, although a tendency was observed between fumonisin contamination and mean maximum temperature.

机译：伏马菌素是次生的致癌代谢产物，主要由全球玉米中的镰刀菌镰刀菌和镰刀菌产生。天然产生伏马菌素的镰刀菌。在南非主产区的选定玉米品种中对玉米籽粒中的伏马毒素和伏马毒素的污染进行了定量。镰刀菌属（Fusarium spp。）使用定量实时PCR（qPCR）确定浓度，并使用HPLC分析检测伏马毒素的污染。还将来自2007年样品的核接种到镰刀菌选择性培养基上，然后再接种到含有PDA和CLA的分板中。产生伏马菌素的镰刀菌属的数量。 14天后进行定量和显微镜鉴定。使用简单的线性回归分析来确定靶标DNA，伏马菌素和产伏马菌素的镰刀菌属菌种数量之间的关系。使用电镀方法。结果表明，产生伏马菌素的镰刀菌属物种高度自然感染。在北开普省，西北省和自由邦省等较暖的生产区，伏马菌素浓度较高。 Spearman等级相关性表明，栽培品种对伏马毒素产生镰刀菌属种对谷物定殖的反应。各地/季节之间的差异（r = 0.42至0.64），表明品种对不同环境/接种条件（疾病潜势）的反应不同。品种CRN3505和DKC80-12B对真菌感染表现出一定程度的抗性。与真菌定殖一样，Spearman等级相关性表明，品种对伏马毒素的污染的响应随地区/季节而变化（r（s）= 0.29至0.70）。品种DKC80-12B和LS8521B显示出一定程度的针对伏马毒素的抗性。回归分析在HPLC数据和qPCR之间产生了显着的关系，但与谷物数据中的电镀没有关系，这表明前者是潜在伏马菌素污染的较好指示剂。特定地点的每日最高温度和降雨量数据是由ARC土壤和气候气候研究所提供的。这些天气参数与伏马菌素生产镰刀菌属的谷物定殖之间无显着关系。尽管观察到了伏马毒素的污染与平均最高温度之间的趋势，但仍记录了该数据。

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《European Journal of Plant Pathology》 |2015年第3期|共14页
作者
van Rensburg B. Janse; McLaren N. W.; Flett B. C.; Schoeman A.;
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正文语种 eng
中图分类植物病理学;
关键词
Fumonisins; Fusarium spp; GXE interactions; Incidence;

机译：伏马菌素;镰刀菌属;GXE相互作用;发病率;

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1. Fumonisin producing Fusarium spp. and fumonisin contamination in commercial South African maize [J] . van Rensburg B. Janse, McLaren N. W., Flett B. C., European Journal of Plant Pathology . 2015,第3期

机译：伏马菌素生产镰刀菌属。和南非商业玉米中伏马毒素的污染
2. Grain colonization by fumonisin-producing ce:italic>Fusarium/ce:italic> spp. and fumonisin synthesis in South African commercial maize in relation to prevailing weather conditions [J] . Crop Protection . 2017,第期

机译：谷物殖民化由福音引发蛋白生成＆ Ce：斜体>镰刀菌：斜体> SPP。南非商业玉米的福音素合成与现行天气条件相关
3. Fusarium spp. and levels of fumonisins in maize produced by subsistence farmers in South Africa [J] . Edson Ncube, Bradley C. Flett, Cees Waalwijk, South African Journal of Science . 2011,第1a2期

机译：镰刀菌属生计农民生产的玉米中伏马毒素的含量和水平
4. THE EFFECTS OF FUMONISIN B_1 IN OESOPHAGEAL CANCER IN BLACK PATIENTS IN SOUTH AFRICA [C] . K. Naidoo, P. Naicker, B. Singh, Microscopy Society of Southern Africa Annual Conference . 2009

机译：南非黑人患者中食管癌患者患者的影响
5. Improving resistance to fusarium ear rot and fumonisin contamination and increasing yield with exotic maize germplasm. [D] . Eller, Magen Starr. 2009

机译：利用外来玉米种质提高对镰刀菌腐烂和伏马毒素的污染的抵抗力，并提高产量。
6. Differences in Ear Rot Resistance and Fusarium verticillioides-Produced Fumonisin Contamination Between Polish Currently and Historically Used Maize Inbred Lines [O] . Elżbieta Czembor, Agnieszka Waśkiewicz, Urszula Piechota, -1

机译：波兰目前和历史上使用的玉米自交系之间的耳穗抗性和镰刀菌产生的伏马菌素污染的差异
7. Fusarium spp. and levels of fumonisins in maize produced by subsistence farmers in South Africa [O] . Ncube Edson, Flett Bradley C., Waalwijk Cees, 2011

机译：镰刀菌属和南非自给农民生产的玉米中的伏马毒素水平

Fumonisin producing Fusarium spp. and fumonisin contamination in commercial South African maize

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