Jill R. Lennon scite author profile

Jill R. Lennon

2Publications

74Citation Statements Received

188Citation Statements Given

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183

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North Carolina State University

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Identification of Alleles Conferring Resistance to Gray Leaf Spot in Maize Derived from its Wild Progenitor Species Teosinte

et al. 2016

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Gray leaf spot (GLS; causal agent Cercospora zeae‐maydis and Cercospora zeina) is an important maize (Zea mays L.) disease in the United States. Current control methods for GLS include using resistant cultivars, crop rotation, chemical applications, and conventional tillage to reduce inoculum levels. Teosinte (Z. mays subsp. parviglumis) is the wild progenitor of maize and easily forms hybrids with current maize inbreds. The aims of this study were to identify alleles from teosinte that, when introduced into temperate maize germplasm, conferred significant levels of GLS resistance. A population of 693 BC4S2 near isogenic lines (NILs), developed by crossing nine different teosinte accessions into the background of the maize inbred B73, were evaluated for GLS resistance in replicated field trials over 2 yr. Six markers significantly associated with GLS resistance were identified using 768 single nucleotide polymorphism (SNP) markers used to genotype this population. Twenty‐seven individual NILs that differed significantly from B73 for GLS resistance and that carried teosinte introgressions at the significantly associated SNPs at bins 2.04, 3.06, 4.07, 5.03, 8.06, and 9.03 were selected for follow‐up studies. F2:3 populations were developed by crossing each selected NIL to B73 followed by self‐pollinating the progeny twice. These F2:3 populations were evaluated for GLS resistance and genotyped at the loci of interest. In most cases, single‐marker analysis validated predicted allelic substitution effects from the original NIL populations.

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Identification of Teosinte Alleles for Resistance to Southern Leaf Blight in Near Isogenic Maize Lines

Lennon¹,

Krakowsky

Goodman³

et al. 2017

Crop Science

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Southern leaf blight ([SLB], causal agent Cochliobolus heterostrophus) is an important fungal disease of maize (Zea mays L.). Teosinte (Z. mays ssp. parviglumis), the wild progenitor of maize, offers a novel source of resistance alleles that may have been lost during domestication. The aims of this study were to identify teosinte alleles that, when present in a temperate maize background, confer a significant level of resistance to SLB. Ten populations of BC4S2 near isogenic lines (NILs), developed by crossing 10 different teosinte accessions to the maize inbred B73, comprising 774 lines in total, were screened for SLB resistance. Quantitative trait locus (QTL) analysis identified four significant QTL associated with SLB in bins 2.04, 3.04, 3.05, and 8.05. Sixteen individual NILs which were significantly different to the susceptible recurrent parent, B73 and which were carrying at least one of the teosinte‐derived resistance alleles were used to develop F2:3 populations by crossing each to B73 followed by two rounds of self‐pollination. These F2:3 populations were evaluated for SLB resistance and genotyped at the loci of interest. In 13 of 19 cases single marker analysis validated allelic substitution effects predicted from the original NIL population analysis, while in five cases we were not able to validate the effects and in one case a significant effect was detected in the opposite to the predicted direction. An allele at the QTL in bin 2.04 was shown to confer resistance to both SLB and a second maize foliar disease, gray leaf spot (GLS).

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Jill R. Lennon

Identification of Alleles Conferring Resistance to Gray Leaf Spot in Maize Derived from its Wild Progenitor Species Teosinte

Identification of Teosinte Alleles for Resistance to Southern Leaf Blight in Near Isogenic Maize Lines

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