Search Results - "Grover, J"

Genetic diversity and genomic strategies for improving drought and waterlogging tolerance in soybeans by Valliyodan, Babu, Ye, Heng, Song, Li, Murphy, MacKensie, Shannon, J. Grover, Nguyen, Henry T.

“…Drought and its interaction with high temperature are the major abiotic stress factors affecting soybean yield and production stability. Ongoing climate…”
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Identification of new loci for salt tolerance in soybean by high-resolution genome-wide association mapping by Do, Tuyen D, Vuong, Tri D, Dunn, David, Clubb, Michael, Valliyodan, Babu, Patil, Gunvant, Chen, Pengyin, Xu, Dong, Nguyen, Henry T, Shannon, J Grover

“…Salinity is an abiotic stress that negatively affects soybean [Glycine max (L.) Merr.] seed yield. Although a major gene for salt tolerance was identified and…”
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Root xylem plasticity to improve water use and yield in water-stressed soybean by Prince, Silvas J., Murphy, Mackensie, Mutava, Raymond N., Durnell, Lorellin A., Valliyodan, Babu, Shannon, J. Grover, Nguyen, Henry T.

“…We tested the hypothesis that increasing the number of metaxylem vessels would enhance the efficiency of water uptake in soybean (Glycine max) and decrease the…”
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A major natural genetic variation associated with root system architecture and plasticity improves waterlogging tolerance and yield in soybean by Ye, Heng, Song, Li, Chen, Huatao, Valliyodan, Babu, Cheng, Peng, Ali, Liakat, Vuong, Tri, Wu, Chengjun, Orlowski, John, Buckley, Blair, Chen, Pengyin, Shannon, J. Grover, Nguyen, Henry T.

“…Natural genetic variations in waterlogging tolerance are controlled by multiple genes mapped as quantitative trait loci (QTLs) in major crops, including…”
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Harnessing the Potential of Forage Legumes, Alfalfa, Soybean, and Cowpea for Sustainable Agriculture and Global Food Security by Kulkarni, Krishnanand P, Tayade, Rupesh, Asekova, Sovetgul, Song, Jong Tae, Shannon, J Grover, Lee, Jeong-Dong

“…Substantial improvements in access to food and increased purchasing power are driving many people toward consuming nutrition-rich foods causing an…”
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Molecular mapping and genomics of soybean seed protein: a review and perspective for the future by Patil, Gunvant, Mian, Rouf, Vuong, Tri, Pantalone, Vince, Song, Qijian, Chen, Pengyin, Shannon, Grover J., Carter, Tommy C., Nguyen, Henry T.

“…Key message Genetic improvement of soybean protein meal is a complex process because of negative correlation with oil, yield, and temperature. This review…”
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Medicinal plants of India with anti-diabetic potential by Grover, J.K., Yadav, S., Vats, V.

“…Since ancient times, plants have been an exemplary source of medicine. Ayurveda and other Indian literature mention the use of plants in treatment of various…”
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Understanding genetic control of root system architecture in soybean: Insights into the genetic basis of lateral root number by Prince, Silvas J., Valliyodan, Babu, Ye, Heng, Yang, Ming, Tai, Shuaishuai, Hu, Wushu, Murphy, Mackensie, Durnell, Lorellin A., Song, Li, Joshi, Trupti, Liu, Yang, Van de Velde, Jan, Vandepoele, Klaas, Grover Shannon, J., Nguyen, Henry T.

“…Developing crops with better root systems is a promising strategy to ensure productivity in both optimum and stress environments. Root system architectural…”
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Genome-Wide Analysis of Grain Yield Stability and Environmental Interactions in a Multiparental Soybean Population by Xavier, Alencar, Jarquin, Diego, Howard, Reka, Ramasubramanian, Vishnu, Specht, James E, Graef, George L, Beavis, William D, Diers, Brian W, Song, Qijian, Cregan, Perry B, Nelson, Randall, Mian, Rouf, Shannon, J Grover, McHale, Leah, Wang, Dechun, Schapaugh, William, Lorenz, Aaron J, Xu, Shizhong, Muir, William M, Rainey, Katy M

“…Genetic improvement toward optimized and stable agronomic performance of soybean genotypes is desirable for food security. Understanding how genotypes perform…”
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Mapping and confirmation of loci for salt tolerance in a novel soybean germplasm, Fiskeby III by Do, Tuyen D., Vuong, Tri D., Dunn, David, Smothers, Scotty, Patil, Gunvant, Yungbluth, Dennis C., Chen, Pengyin, Scaboo, Andrew, Xu, Dong, Carter, Thomas E., Nguyen, Henry T., Grover Shannon, J.

“…Key message The confirmation of a major locus associated with salt tolerance and mapping of a new locus, which could be beneficial for improving salt tolerance…”
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Dissecting genomic hotspots underlying seed protein, oil, and sucrose content in an interspecific mapping population of soybean using high‐density linkage mapping by Patil, Gunvant, Vuong, Tri D., Kale, Sandip, Valliyodan, Babu, Deshmukh, Rupesh, Zhu, Chengsong, Wu, Xiaolei, Bai, Yonghe, Yungbluth, Dennis, Lu, Fang, Kumpatla, Siva, Shannon, J. Grover, Varshney, Rajeev K., Nguyen, Henry T.

“…Summary The cultivated [Glycine max (L) Merr.] and wild [Glycine soja Siebold & Zucc.] soybean species comprise wide variation in seed composition traits…”
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Pharmacological actions and potential uses of Momordica charantia: a review by Grover, J.K, Yadav, S.P

“…Since ancient times, plants and herbal preparations have been used as medicine. Research carried out in last few decades has certified several such claims of…”
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The importance of slow canopy wilting in drought tolerance in soybean by Ye, Heng, Song, Li, Schapaugh, William T, Ali, Md Liakat, Sinclair, Thomas R, Riar, Mandeep K, Raymond, Raymond N, Li, Yang, Vuong, Tri, Valliyodan, Babu, Pizolato Neto, Antonio, Klepadlo, Mariola, Song, Qijian, Shannon, J Grover, Chen, Pengyin, Nguyen, Henry T

“…Slow canopy wilting (SW) is a water conservation trait controlled by quantitative trait loci (QTLs) in late maturity group soybeans [Glycine max (L.) Merr.]…”
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Landscape of genomic diversity and trait discovery in soybean by Valliyodan, Babu, Dan Qiu, Patil, Gunvant, Zeng, Peng, Huang, Jiaying, Dai, Lu, Chen, Chengxuan, Li, Yanjun, Joshi, Trupti, Song, Li, Vuong, Tri D., Musket, Theresa A., Xu, Dong, Shannon, J. Grover, Shifeng, Cheng, Liu, Xin, Nguyen, Henry T.

“…Cultivated soybean [ Glycine max (L.) Merr.] is a primary source of vegetable oil and protein. We report a landscape analysis of genome-wide genetic variation…”
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Genomic-assisted haplotype analysis and the development of high-throughput SNP markers for salinity tolerance in soybean by Patil, Gunvant, Do, Tuyen, Vuong, Tri D., Valliyodan, Babu, Lee, Jeong-Dong, Chaudhary, Juhi, Shannon, J. Grover, Nguyen, Henry T.

“…Soil salinity is a limiting factor of crop yield. The soybean is sensitive to soil salinity and a dominant gene, Glyma03g32900 is primarily responsible for…”
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Combinations of mutant FAD2 and FAD3 genes to produce high oleic acid and low linolenic acid soybean oil by Pham, Anh-Tung, Shannon, J. Grover, Bilyeu, Kristin D

“…High oleic acid soybeans were produced by combining mutant FAD2-1A and FAD2-1B genes. Despite having a high oleic acid content, the linolenic acid content of…”
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Oral Language and Code-Related Precursors to Reading: Evidence From a Longitudinal Structural Model by Storch, Stacey A, Whitehurst, Grover J

“…This study examined code-related and oral language precursors to reading in a longitudinal study of 626 children from preschool through 4th grade. Code-related…”
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Pinpointing genes underlying the quantitative trait loci for root-knot nematode resistance in palaeopolyploid soybean by whole genome resequencing by Xu, Xiangyang, Zeng, Liang, Tao, Ye, Vuong, Tri, Wan, Jinrong, Boerma, Roger, Noe, Jim, Li, Zenglu, Finnerty, Steve, Pathan, Safiullah M., Shannon, J. Grover, Nguyen, Henry T.

“…The objective of this study was to use next-generation sequencing technologies to dissect quantitative trait loci (QTL) for southern root-knot nematode (RKN)…”
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Mutant alleles of FAD2-1A and FAD2-1B combine to produce soybeans with the high oleic acid seed oil trait by Pham, Anh-Tung, Lee, Jeong-Dong, Shannon, J Grover, Bilyeu, Kristin D

“…The alteration of fatty acid profiles in soybean [Glycine max (L.) Merr.] to improve soybean oil quality is an important and evolving theme in soybean research…”
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Ultrahigh transmission optical nanofibers by Hoffman, J. E., Ravets, S., Grover, J. A., Solano, P., Kordell, P. R., Wong-Campos, J. D., Orozco, L. A., Rolston, S. L.

“…We present a procedure for reproducibly fabricating ultrahigh transmission optical nanofibers (530 nm diameter and 84 mm stretch) with single-mode…”
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