Using weed-suppressive, chromosome substitution (CS) cotton as a supplemental weed management strategy

Fuller, Mary Gracen Alexandra

06 August 2021

Cotton is a valuable fiber crop around the world used to create fabrics, oils, and currency. The threat of herbicide resistant (HR) weed populations is precarious for cotton production. The overreaching objective of this study was to phenotype potentially allelopathic chromosome substitution (CS) lines to determine competitive accessions. The identification of competitive cotton lines would be useful in the development of alternative weed control tools. Twelve CS lines (CS-49, CS-38, CS-34, CS-39, CS-27, CS-13, CS-50, CS-26, CS-25, CS-43, CS-46, and CS-23) along with the parent line (TM1) and two conventional varieties (UA48 and Enlist) were screened in a greenhouse using the stairstep structure. Eight CS lines were then selected to test in the field and analyzed in the lab to identify allelochemical exudates using HPLC. Results of this study provide a greater insight into the nature of allelopathy and its potential usefulness in cotton crops.

cotton

chromosome substitution

allelopathy

Genetic Regulation of Intrinsic Endurance Exercise Capacity in Mice

Courtney, Sean M.

16 December 2013

Endurance exercise capacity is a powerful predictor of health status. Having low levels of endurance exercise capacity has been linked with cardiovascular disease. Variation in endurance exercise capacity, measured during a graded exercise test, has been reported across cross-section, twin, and family studies. This variation is evidence of a genetic component to the phenotype of endurance exercise capacity: however, the genetic factors responsible for explaining this variation are undefined, in part because previous research has been performed on a limited scale. Therefore, three sets of experiments were designed to identify: 1) Novel quantitative trait loci (QTL) for endurance exercise capacity in 34 strains of inbred mice using genome-wide association mapping. 2) The effect of chromosome substitution on endurance exercise capacity using linkage analysis in F2 mice. 3) The effect of chromosome substitution on endurance exercise capacity using wild-derived mice. The main findings of this dissertation are: 1) There are strain-specific differences in endurance exercise capacity across 34 strains of male inbred mice. Genome-wide association mapping identified novel putative QTL on chromosomes 2, 7, 11, and 13. 2) Linkage analysis identified a novel QTL on chromosome 14 at the 56 cM position for run time and work. Linkage analysis also identified a potential sex-specific QTL, with the identified QTL significant for male mice only. 3) Novel putative QTL were identified on chromosomes 3 and 14 in chromosome substitution mice from wild-derived mice. These data suggest that chromosome 14 is an important contributor to the genetic regulation of intrinsic endurance exercise capacity. These studies support a genetic component to endurance exercise capacity by identifying strain-specific differences and novel, putative QTL.

Endurance exercise

QTL

chromosome substitution

Transgenerational Genetic Effects In Mouse Models Of Complex Traits

Nelson, Vicki R.

January 2010

No description available.

Genetics

transgenerational effects

genetic

chromosome substitution strains

complex traits

Identification of Genes Differentially Expressed in Elongating Fiber in a Cotton Chromosome Substitution Line CS-B25

Bandi, Samuel Sunil Kumar

06 August 2011

Identification of genes specific to fiber development would improve the efforts in developing cotton plants with superior fiber quality. Through genetic introgression, 17 interspecific chromosome substitution lines (CS-B lines) of upland cotton in G. hirsutum (TM-1) have been developed and released recently. These substitution lines have TM1 as background and contain either whole chromosome or chromosome arms of G. barbadense (line 3-79) chromosomes. CS-B25 has chromosome 25 from G. barbadense substituted into TM-1 G. hirsutum was reported to show superior fiber properties. In this study, suppression subtraction hybridization (SSH) combined with Affymetrix cotton genome microarray arrays were used to identify differentially expressed genes in CS-B25. An SSH fiber cDNA library was constructed with differentially expressed genes identified in CS-B25. Microarray analysis showed that 23 genes were up-regulated and 9 down-regulated. Majority of these genes were involved in Ethylene signal pathway, Ubiquitin-proteasome pathway and cell wall synthesis.

Microarray

Real Time PCR

Suppression subtraction hybridization

Chromosome substitution line 25

Genetic control of testicular germ cell tumor susceptibility in mice

Anderson, Philip D.

03 August 2009

No description available.

Genetics

germ cell tumor

mouse models

TGCT

chromosome substitution strain

Y chromosome

The genetics and molecular mechanisms of tolerance to 2,4-dichlorophenoxyacetic acid (2,4-D) in upland cotton (Gossypium hirsutum L.)

Perez, Loida Moreno

30 April 2021

Upland cotton, Gossypium hirsutum L., is a natural source of fiber and a major row crop in the US with an estimated $7 billion raw product value in 2019. However, it is extremely sensitive to the broadleaf herbicide 2,4-dichlorophenoxyacetic acid (2,4-D). With the evolution of herbicide-resistant weeds compounded by off-target spray damage on conventional cotton varieties outside the transgenic Enlist technology (Dow Agrosciences) of herbicide-tolerant cotton varieties (Dow Agrosciences), there is a need to identify and develop novel sources of herbicide tolerance gene for upland cotton genetic improvement. Cotton chromosome substitution (CS) lines carry introgressions from other cultivated and wild allotetraploid Gossypium species that could be sources of novel and exotic alleles for herbicide tolerance. A total of 50 CS lines of G. barbadense L. (CS-B), G. tomentosum Nuttal ex Seeman (CS-T), and G. mustelinum Meers ex Watt (CS-M), in the genetic background of G. hirsutum L. Texas Marker-1 (TM-1) were screened for resistance to a field-recommended rate (1.12 kg ae ha-1) of 2,4-D in the greenhouse. Seven CS lines, CS-T04-15, CS-B12, CS-B15sh, CS-T04, CS-B22sh, CS-T07, and CS-B04-15 with the lowest injury were evaluated for tolerance at four and seven weeks after seedling emergence under field conditions. Progeny tests conducted in the greenhouse validated 2,4-D tolerance of CS-B15sh, showing 41% lower injury than TM-1. Novel variants of CS-T04-15 and CS-T07 were identified with complete tolerance to the herbicide but are segregating. Uptake and translocation of 14C-labeled 2,4-D indicated that reduced translocation of 2,4-D may be the 2,4-D tolerance mechanism in CS-T04-15 and CS-T07, while gene(s) associated with metabolism and reduced auxin transport appeared associated with the 2,4-D tolerance in CS-B15sh. Transcriptome analysis revealed differential expression of genes in 2,4-D-treated CS-B15sh and TM-1 with several components of the 2,4-D/auxin response pathway, including ubiquitin E3 ligase, PB1|AUX/IAA, ARF transcription factors, and F box proteins of the SCFTIR1/AFB complex being up-regulated. Functional annotation of differentially expressed genes revealed down-regulation of auxin transport, suggesting a potential linkage with tolerance mechanism involving altered movement of 2,4-D in CS-B15sh. The selected highly tolerant cotton CS lines will need to be confirmed further using molecular assays.

2

4-D

C14-labeled 2

4-D

chromosome substitution lines

herbicide tolerance

RNA sequencing

upland cotton

Genetika a genomika hybridní sterility / Genetics and Genomics of Hybrid Sterility

Bhattacharyya, Tanmoy

January 2013

Charles University in Prague Faculty of Science Ph.D. study program: Molecular and Cellular Biology, Genetics and Virology Abstract Genetics and genomics of hybrid sterility Mgr. Tanmoy Bhattacharyya Supervisor: Prof. MUDr. Jiří Forejt, DrSc. Praha 2013 Abstract Male-limited hybrid sterility restricts gene flow between the related species, an important pre- requisite of speciation. The F1 hybrid males of PWD/Ph female (Mus m. musculus subspecies) and C57BL/6J or B6 male (Mus m. domesticus) are azoospermic and sterile (PB6F1), while the hybrids from the reciprocal (B6PF1) cross are semi fertile. A disproportionately large effect of the X chromosome (Chr) on hybrid male sterility is a widespread phenomenon accompanying the origin of new species. In the present study, we mapped two phenotypically distinct hybrid sterility loci Hstx1 and Hstx2 to a common 4.7 Mb region on Chr. X. Analysis of meiotic prophase I of PB6F1 sterile males revealed meiotic block at mid-late pachynema and the TUNEL assay showed apoptosis of arrested spermatocytes. In sterile males over 95% of pachytene spermatocytes showed one or more unsynapsed autosomes visualized by anti SYCP1, HORMAD2 and SYCP3 antibodies. The phosphorylated form of H2AFX histone, normally restricted only to XY chromosome containing sex body decorated unsynapsed...

Co-morbidities as quantitative traits

Raska, Paola

January 2010

No description available.

Biomedical Research

Biostatistics

Genetics

correlations

co-morbidities

framingham data

obesity

coronary heart disease

diabetes

physiological ceiling

physiological resilience

chromosome substitution strains

A/J

C57BL/6J

gene by environment interactions

gene by gene interactions