Jiping Liu, Ph.D. - Publications

Affiliations: 
1993-1999 Department of Plant Science University of Arizona, Tucson, AZ 
 1999-2004 Department of Plant Breeding and Genetics Cornell University, Ithaca, NY, United States 
 2004- Plant Soil & Nutrition Unit Robert W. Holley Center, USDA-ARS 
Area:
Plant genetics, plant molecular biology, plant nutrition, ion transport, abiotic stresses
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38 high-probability publications. We are testing a new system for linking publications to authors. You can help! If you notice any inaccuracies, please sign in and mark papers as correct or incorrect matches. If you identify any major omissions or other inaccuracies in the publication list, please let us know.

Year Citation  Score
2022 Wang Y, Yang S, Li C, Hu T, Hou S, Bai Q, Ji X, Xu F, Guo C, Huang M, Cai Y, Liu J. The plasma membrane-localized OsNIP1;2 mediates internal aluminum detoxification in rice. Frontiers in Plant Science. 13: 970270. PMID 36172551 DOI: 10.3389/fpls.2022.970270  0.383
2022 Yu W, Xue Z, Zhao X, Zhang R, Liu J, Guo S. Glyphosate-induced GhAG2 is involved in resistance to salt stress in cotton. Plant Cell Reports. PMID 35243542 DOI: 10.1007/s00299-022-02844-3  0.319
2022 Potts J, Li H, Qin Y, Wu X, Hui D, Nasr KA, Zhou S, Yong Y, Fish T, Liu J, Thannhauser TW. Using single cell type proteomics to identify Al-induced proteomes in outer layer cells and interior tissues in the apical meristem/cell division regions of tomato root-tips. Journal of Proteomics. 104486. PMID 35066208 DOI: 10.1016/j.jprot.2022.104486  0.316
2020 Wang Y, Yu W, Cao Y, Cai Y, Lyi SM, Wu W, Kang Y, Liang C, Liu J. An exclusion mechanism is epistatic to an internal detoxification mechanism in aluminum resistance in Arabidopsis. Bmc Plant Biology. 20: 122. PMID 32188405 DOI: 10.1186/S12870-020-02338-Y  0.415
2019 Qiu W, Wang N, Dai J, Wang T, Kochian LV, Liu J, Zuo Y. AhFRDL1 mediated citrate secretion contributes to adaptation of peanuts for Fe deficiency and Al stress. Journal of Experimental Botany. PMID 30825369 DOI: 10.1093/Jxb/Erz089  0.379
2019 Zhao Z, Gao X, Ke Y, Chang M, Xie L, Li X, Gu M, Liu J, Tang X. A unique aluminum resistance mechanism conferred by aluminum and salicylic-acid-activated root efflux of benzoxazinoids in maize Plant and Soil. 437: 273-289. DOI: 10.1007/S11104-019-03971-9  0.425
2018 Qin L, Walk TC, Han P, Chen L, Zhang S, Li Y, Hu X, Xie L, Yang Y, Liu J, Lu X, Yu C, Tian J, Shaff JE, Kochian LV, et al. Adaption of roots to nitrogen deficiency revealed by 3-D quantification and proteomic analysis. Plant Physiology. PMID 30455286 DOI: 10.1104/Pp.18.00716  0.361
2018 Wang Y, Cai Y, Cao Y, Liu J. Aluminum-activated root malate and citrate exudation is independent of NIP1;2-facilitated root-cell-wall aluminum removal in Arabidopsis. Plant Signaling & Behavior. 0. PMID 29293394 DOI: 10.1080/15592324.2017.1422469  0.433
2017 Jiang F, Wang T, Wang Y, Kochian LV, Chen F, Liu J. Identification and characterization of suppressor mutants of stop1. Bmc Plant Biology. 17: 128. PMID 28738784 DOI: 10.1186/S12870-017-1079-2  0.415
2017 Wang Y, Li R, Li D, Jia X, Zhou D, Li J, Lyi SM, Hou S, Huang Y, Kochian LV, Liu J. NIP1;2 is a plasma membrane-localized transporter mediating aluminum uptake, translocation, and tolerance in Arabidopsis. Proceedings of the National Academy of Sciences of the United States of America. PMID 28439024 DOI: 10.1073/Pnas.1618557114  0.434
2017 Ligaba-Osena A, Fei Z, Liu J, Xu Y, Shaff J, Lee SC, Luan S, Kudla J, Kochian L, Piñeros M. Loss-of-function mutation of the calcium sensor CBL1 increases aluminum sensitivity in Arabidopsis. The New Phytologist. PMID 28150888 DOI: 10.1111/Nph.14420  0.488
2016 Zhou D, Yang Y, Zhang J, Jiang F, Craft E, Thannhauser TW, Kochian LV, Liu J. Quantitative iTRAQ Proteomics Revealed Possible Roles for Antioxidant Proteins in Sorghum Aluminum Tolerance. Frontiers in Plant Science. 7: 2043. PMID 28119720 DOI: 10.3389/Fpls.2016.02043  0.412
2015 Zhou X, Welsch R, Yang Y, Álvarez D, Riediger M, Yuan H, Fish T, Liu J, Thannhauser TW, Li L. Arabidopsis OR proteins are the major posttranscriptional regulators of phytoene synthase in controlling carotenoid biosynthesis. Proceedings of the National Academy of Sciences of the United States of America. 112: 3558-63. PMID 25675505 DOI: 10.1073/Pnas.1420831112  0.396
2015 Kochian LV, Piñeros MA, Liu J, Magalhaes JV. Plant Adaptation to Acid Soils: The Molecular Basis for Crop Aluminum Resistance. Annual Review of Plant Biology. 66: 571-98. PMID 25621514 DOI: 10.1146/Annurev-Arplant-043014-114822  0.427
2014 Li JY, Liu J, Dong D, Jia X, McCouch SR, Kochian LV. Natural variation underlies alterations in Nramp aluminum transporter (NRAT1) expression and function that play a key role in rice aluminum tolerance. Proceedings of the National Academy of Sciences of the United States of America. 111: 6503-8. PMID 24728832 DOI: 10.1073/Pnas.1318975111  0.466
2014 Milner MJ, Pence NS, Liu J, Kochian LV. Identification of a novel pathway involving a GATA transcription factor in yeast and possibly in plant Zn uptake and homeostasis. Journal of Integrative Plant Biology. 56: 271-80. PMID 24433538 DOI: 10.1111/Jipb.12169  0.383
2014 Liu J, Piñeros MA, Kochian LV. The role of aluminum sensing and signaling in plant aluminum resistance. Journal of Integrative Plant Biology. 56: 221-30. PMID 24417891 DOI: 10.1111/Jipb.12162  0.463
2014 Matonyei TK, Cheprot RK, Liu J, Piñeros MA, Shaff JE, Gudu S, Were B, Magalhaes JV, Kochian LV. Physiological and molecular analysis of aluminum tolerance in selected Kenyan maize lines Plant and Soil. 377: 357-367. DOI: 10.1007/S11104-013-1976-6  0.444
2013 Sivaguru M, Liu J, Kochian LV. Targeted expression of SbMATE in the root distal transition zone is responsible for sorghum aluminum resistance. The Plant Journal : For Cell and Molecular Biology. 76: 297-307. PMID 23865685 DOI: 10.1111/Tpj.12290  0.465
2013 Liang C, Piñeros MA, Tian J, Yao Z, Sun L, Liu J, Shaff J, Coluccio A, Kochian LV, Liao H. Low pH, aluminum, and phosphorus coordinately regulate malate exudation through GmALMT1 to improve soybean adaptation to acid soils. Plant Physiology. 161: 1347-61. PMID 23341359 DOI: 10.1104/Pp.112.208934  0.402
2013 Melo JO, Lana UG, Piñeros MA, Alves VM, Guimarães CT, Liu J, Zheng Y, Zhong S, Fei Z, Maron LG, Schaffert RE, Kochian LV, Magalhaes JV. Incomplete transfer of accessory loci influencing SbMATE expression underlies genetic background effects for aluminum tolerance in sorghum. The Plant Journal : For Cell and Molecular Biology. 73: 276-88. PMID 22989115 DOI: 10.1111/Tpj.12029  0.443
2013 Cheprot RK, Matonyei TK, Were BA, Dangasuk OG, Onkware AO, Ouma EO, Too EJ, Liu J, Gudu S, Kochian L. Phylogenetic relationship among Kenyan sorghum germplasms based on aluminium tolerance African Journal of Biotechnology. 12: 3528-3536. DOI: 10.5897/Ajb12.2488  0.373
2012 Liu J, Luo X, Shaff J, Liang C, Jia X, Li Z, Magalhaes J, Kochian LV. A promoter-swap strategy between the AtALMT and AtMATE genes increased Arabidopsis aluminum resistance and improved carbon-use efficiency for aluminum resistance. The Plant Journal : For Cell and Molecular Biology. 71: 327-37. PMID 22413742 DOI: 10.1111/J.1365-313X.2012.04994.X  0.455
2011 Caniato FF, Guimarães CT, Hamblin M, Billot C, Rami JF, Hufnagel B, Kochian LV, Liu J, Garcia AA, Hash CT, Ramu P, Mitchell S, Kresovich S, Oliveira AC, de Avellar G, et al. The relationship between population structure and aluminum tolerance in cultivated sorghum. Plos One. 6: e20830. PMID 21695088 DOI: 10.1371/Journal.Pone.0020830  0.436
2009 Liu J, Magalhaes JV, Shaff J, Kochian LV. Aluminum-activated citrate and malate transporters from the MATE and ALMT families function independently to confer Arabidopsis aluminum tolerance. The Plant Journal : For Cell and Molecular Biology. 57: 389-99. PMID 18826429 DOI: 10.1111/J.1365-313X.2008.03696.X  0.464
2007 Magalhaes JV, Liu J, Guimarães CT, Lana UG, Alves VM, Wang YH, Schaffert RE, Hoekenga OA, Piñeros MA, Shaff JE, Klein PE, Carneiro NP, Coelho CM, Trick HN, Kochian LV. A gene in the multidrug and toxic compound extrusion (MATE) family confers aluminum tolerance in sorghum. Nature Genetics. 39: 1156-61. PMID 17721535 DOI: 10.1038/Ng2074  0.384
2003 Liu J, Cong B, Tanksley SD. Generation and analysis of an artificial gene dosage series in tomato to study the mechanisms by which the cloned quantitative trait locus fw2.2 controls fruit size. Plant Physiology. 132: 292-9. PMID 12746534 DOI: 10.1104/Pp.102.018143  0.355
2002 Cong B, Liu J, Tanksley SD. Natural alleles at a tomato fruit size quantitative trait locus differ by heterochronic regulatory mutations. Proceedings of the National Academy of Sciences of the United States of America. 99: 13606-11. PMID 12370431 DOI: 10.1073/Pnas.172520999  0.355
2002 Liu J, Van Eck J, Cong B, Tanksley SD. A new class of regulatory genes underlying the cause of pear-shaped tomato fruit. Proceedings of the National Academy of Sciences of the United States of America. 99: 13302-6. PMID 12242331 DOI: 10.1073/Pnas.162485999  0.405
2001 Ku HM, Liu J, Doganlar S, Tanksley SD. Exploitation of Arabidopsis-tomato synteny to construct a high-resolution map of the ovatecontaining region in tomato chromosome 2. Genome / National Research Council Canada = GéNome / Conseil National De Recherches Canada. 44: 470-5. PMID 11444707 DOI: 10.1139/G01-024  0.308
2000 Ishitani M, Liu J, Halfter U, Kim C, Shi W, Zhu J. SOS3 Function in Plant Salt Tolerance Requires N-Myristoylation and Calcium Binding The Plant Cell. 12: 1667-1678. PMID 11006339 DOI: 10.1105/Tpc.12.9.1667  0.523
2000 Ku HM, Vision T, Liu J, Tanksley SD. Comparing sequenced segments of the tomato and Arabidopsis genomes: large-scale duplication followed by selective gene loss creates a network of synteny. Proceedings of the National Academy of Sciences of the United States of America. 97: 9121-6. PMID 10908680 DOI: 10.1073/Pnas.160271297  0.309
2000 Frary A, Nesbitt TC, Grandillo S, Knaap E, Cong B, Liu J, Meller J, Elber R, Alpert KB, Tanksley SD. fw2.2: a quantitative trait locus key to the evolution of tomato fruit size. Science (New York, N.Y.). 289: 85-8. PMID 10884229 DOI: 10.1126/Science.289.5476.85  0.367
2000 Liu J, Ishitani M, Halfter U, Kim C, Zhu J. The Arabidopsis thaliana SOS2 gene encodes a protein kinase that is required for salt tolerance Proceedings of the National Academy of Sciences of the United States of America. 97: 3730-3734. DOI: 10.1073/Pnas.97.7.3730  0.519
1998 Zhu JK, Liu J, Xiong L. Genetic analysis of salt tolerance in arabidopsis. Evidence for a critical role of potassium nutrition. The Plant Cell. 10: 1181-91. PMID 9668136 DOI: 10.1105/Tpc.10.7.1181  0.632
1998 Liu J, Zhu J. A Calcium Sensor Homolog Required for Plant Salt Tolerance Science. 280: 1943-1945. PMID 9632394 DOI: 10.1126/Science.280.5371.1943  0.522
1997 Liu J, Zhu J. An Arabidopsis mutant that requires increased calcium for potassium nutrition and salt tolerance Proceedings of the National Academy of Sciences of the United States of America. 94: 14960-14964. PMID 9405721 DOI: 10.1073/Pnas.94.26.14960  0.54
1997 Liu J, Zhu JK. Proline Accumulation and Salt-Stress-Induced Gene Expression in a Salt-Hypersensitive Mutant of Arabidopsis Plant Physiology. 114: 591-596. PMID 9193091 DOI: 10.1104/Pp.114.2.591  0.432
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