External Database | Publication

Publication


  Recombinants from the crosses between amphidiploid and cultivated peanut (Arachis hypogaea) for pest-resistance breeding programs.
    de Paula AF, Dinato NB, Vigna BBZ, Fávero A, PLoS One, 12(4):e0175940 (2017).
    [Go to Pubmed] [CrossLink]
  Ex vitro hairy root induction in detached peanut leaves for plant-nematode interaction studies.
    Guimaraes LA, Pereira BM, Araujo AC, Guimaraes PM, Brasileiro AC, Plant Methods, 13:25 (2017).
    [Go to Pubmed] [CrossLink]
  Allelopathic Activity of Extracts from Different Brazilian Peanut (Arachis hypogaea L.) Cultivars on Lettuce (Lactuca sativa) and Weed Plants.
    Casimiro GS, Mansur E, Pacheco G, Garcia R, Leal IC, Simas NK, ScientificWorldJournal, 2796983 (2017).
    [Go to Pubmed] [CrossLink]
  Phylogenetically diverse group of native bacterial symbionts isolated from root nodules of groundnut (Arachis hypogaea L.) in South Africa.
    Jaiswal SK, Msimbira LA, Dakora FD, Systematic and applied microbiology, doi: 10.1016/j.syapm.2017.02.002 (2017).
    [Go to Pubmed] [CrossLink]
  Arachis hypogaea L. produces mimic and inhibitory quorum sensing like molecules.
    Nievas F, Vilchez L, Giordano W, Bogino P, Antonie Van Leeuwenhoek, doi: 10.1007/s10482-017-0862-2 (2017).
    [Go to Pubmed] [CrossLink]
  Translation Initiation Factor eIF4E and eIFiso4E Are Both Required for Peanut stripe virus Infection in Peanut (Arachis hypogaea L.)
    Xu M, Xie H, Wu J, Xie L, Yang J, Chi Y, Frontiers in microbiology, 8:338 (2017).
    [Go to Pubmed] [CrossLink]
  Phenotypic effects of allotetraploidization of wild Arachis and their implications for peanut domestication.
    Leal-Bertioli SC, Moretzsohn MC, Santos SP, Brasileiro AC, Guimarães PM, Bertioli DJ, Araujo AC, American journal of botany, 104(3):379-388 (2017).
    [Go to Pubmed] [CrossLink]
  Economic Injury Level and Demography-Based Control Timing Projection of Spodoptera litura (Lepidoptera: Noctuidae) at Different Growth Stages of Arachis hypogaea.
    Tuan SJ, Lee CC, Tang LC, Saska P, Journal of economic entomology, 110(2):755-762 (2017).
    [Go to Pubmed] [CrossLink]
  Genome-wide analysis of expansin superfamily in wild Arachis discloses a stress-responsive expansin-like B gene.
    Guimaraes LA, Mota AP, Araujo AC, de Alencar Figueiredo LF, Pereira BM, de Passos Saraiva MA, Silva RB, Danchin EG, Guimaraes PM, Brasileiro AC, Plant molecular biology, doi: 10.1007/s11103-017-0594-8 (2017).
    [Go to Pubmed] [CrossLink]
  Genetic mapping of yield traits using RIL population derived from Fuchuan Dahuasheng and ICG6375 of peanut (Arachis hypogaea L.).
    Chen Y, Ren X, Zheng Y, Zhou X, Huang L, Yan L, Jiao Y, Chen W, Huang S, Wan L, Lei Y, Liao B, Huai D, Wei W, Jiang H, Molecular breeding : new strategies in plant improvement, 37(2):17 (2017).
    [Go to Pubmed] [CrossLink]
  Characterization by Lectin Histochemistry of Two Subpopulations of Parietal Cells in the Rat Gastric Glands.
    Gómez-Santos L, Alonso E, Díaz-Flores L, Madrid JF, Sáez FJ, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society, 65(5):261-272 (2017).
    [Go to Pubmed]
  Indirect interactions between arbuscular mycorrhizal fungi and Spodoptera exigua alter photosynthesis and plant endogenous hormones.
    He L, Li C, Liu R, Mycorrhiza, 65(5):261-272 (2017).
    [Go to Pubmed]
  Response of peanut Arachis hypogaea roots to the presence of beneficial and pathogenic fungi by transcriptome analysis.
    Hao K, Wang F, Nong X, McNeill MR, Liu S, Wang G, Cao G, Zhang Z, Scientific reports, 7(1):964 (2017).
    [Go to Pubmed]
  Cloning and Characterization of 5' Flanking Regulatory Sequences of AhLEC1B Gene from Arachis Hypogaea L.
    Tang G, Xu P, Liu W, Liu Z, Shan L, PloS one, 10(10):e0139213 (2015).
    [Go to Pubmed]
  Identification of major QTLs underlying tomato spotted wilt virus resistance in peanut cultivar Florida-EP(TM) '113'.
    Tseng YC, Tillman BL, Peng Z, Wang J, BMC genetics, 17(1):128 (2016).
    [Go to Pubmed]
  Development and Evaluation of a High Density Genotyping 'Axiom_Arachis' Array with 58 K SNPs for Accelerating Genetics and Breeding in Groundnut.
    Pandey MK, Agarwal G, Kale SM, Clevenger J, Nayak SN, Sriswathi M, Chitikineni A, Chavarro C, Chen X, Upadhyaya HD, Vishwakarma MK, Leal-Bertioli S, Liang X, Bertioli DJ, Guo B, Jackson SA, Ozias-Akins P, Varshney RK, Scientific reports, 7:40577 (2017).
    [Go to Pubmed]
  Genetic Dissection of Novel QTLs for Resistance to Leaf Spots and Tomato Spotted Wilt Virus in Peanut (Arachis hypogaea L.).
    Pandey MK, Wang H, Khera P, Vishwakarma MK, Kale SM, Culbreath AK, Holbrook CC, Wang X, Varshney RK, Guo B, Frontiers in plant science, 8:25 (2017).
    [Go to Pubmed]
  Comparative host selection responses of specialist (Helicoverpa assulta) and generalist (Helicoverpa armigera) moths in complex plant environments.
    Li WZ, Teng XH, Zhang HF, Liu T, Wang Q, Yuan G, Guo XR, PloS one, 12(2):e0171948 (2017).
    [Go to Pubmed]
  The Endophytic Fungus Phomopsis liquidambari Increases Nodulation and N2 Fixation in Arachis hypogaea by Enhancing Hydrogen Peroxide and Nitric Oxide Signalling.
    Xie XG, Fu WQ, Zhang FM, Shi XM, Zeng YT, Li H, Zhang W, Dai CC, Microbial ecology, 12(2):e0171948 (2017).
    [Go to Pubmed]
  Ameliorative Effects of Endurance Exercise with Two Different Intensities on Nandrolone Decanoate-Induced Neurodegeneration in Rats: Involving Redox and Apoptotic Systems.
    Joukar S, Vahidi R, Farsinejad A, Asadi-Shekaari M, Shahouzehi B, Neurotoxicity research, 12(2):e0171948 (2017).
    [Go to Pubmed]
  Optimized Extraction of Resveratrol from Arachis repens Handro by Ultrasound and Microwave: A Correlation Study with the Antioxidant Properties and Phenol Contents.
    Garcia L, Garcia R, Pacheco G, Sutili F, Souza R, Mansur E, Leal I, TheScientificWorldJournal, 2016:5890897 (2016).
    [Go to Pubmed]
  Electron beam irradiation revealed genetic differences in radio-sensitivity and generated mutants in groundnut (Arachis hypogaea L.).
    Mondal S, Petwal VC, Badigannavar AM, Bhad PG, Verma VP, Goswami SG, Dwivedi J, Applied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine, 122:78-83 (2017).
    [Go to Pubmed]
  Sensitization of Radioresistant Prostate Cancer Cells by Resveratrol Isolated from Arachis hypogaea Stems.
    Chen YA, Lien HM, Kao MC, Lo UG, Lin LC, Lin CJ, Chang SJ, Chen CC, Hsieh JT, Lin H, Tang CH, Lai CH, PloS one, 12(1):e0169204 (2017).
    [Go to Pubmed]
  Evaluation the effect of gamma irradiation on microbial, chemical and sensorial properties of peanut (Arachis hypogaea l.) seeds.
    Al-Bachir M, Acta scientiarum polonorum. Technologia alimentaria, 15(2):171-179 (2016).
    [Go to Pubmed]
  Co-localization of major quantitative trait loci for pod size and weight to a 3.7 cM interval on chromosome A05 in cultivated peanut (Arachis hypogaea L.).
    Luo H, Ren X, Li Z, Xu Z, Li X, Huang L, Zhou X, Chen Y, Chen W, Lei Y, Liao B, Pandey MK, Varshney RK, Guo B, Jiang X, Liu F, Jiang H, BMC genomics, 18(1):58 (2017).
    [Go to Pubmed]
  Transcriptome profiles reveal gene regulation of peanut (Arachis hypogaea L.) nodulation.
    Peng Z, Liu F, Wang L, Zhou H, Paudel D, Tan L, Maku J, Gallo M, Wang J, Scientific reports, 7:40066 (2017).
    [Go to Pubmed]
  QTL-seq approach identified genomic regions and diagnostic markers for rust and late leaf spot resistance in groundnut (Arachis hypogaea L.).
    Pandey MK, Khan AW, Singh VK, Vishwakarma MK, Shasidhar Y, Kumar V, Garg V, Bhat RS, Chitikineni A, Janila P, Guo B, Varshney RK, Plant biotechnology journal, 7:40066 (2016).
    [Go to Pubmed]
  Identification and characterization of phages parasitic on bradyrhizobia nodulating groundnut (Arachis hypogaea L.) in South Africa.
    Msimbira LA, Jaiswal SK, Dakora FD, Applied soil ecology : a section of Agriculture, Ecosystems & Environment, 108:334-340 (2016).
    [Go to Pubmed]
  Development and deployment of a high-density linkage map identified quantitative trait loci for plant height in peanut (Arachis hypogaea L.).
    Huang L, Ren X, Wu B, Li X, Chen W, Zhou X, Chen Y, Pandey MK, Jiao Y, Luo H, Lei Y, Varshney RK, Liao B, Jiang H, Scientific reports, 6:39478 (2016).
    [Go to Pubmed]
  Genome-wide SNP Genotyping Resolves Signatures of Selection and Tetrasomic Recombination in Peanut.
    Clevenger J, Chu Y, Chavarro C, Agarwal G, Bertioli DJ, Leal-Bertioli SC, Pandey MK, Vaughn J, Abernathy B, Barkley NA, Hovav R, Burow M, Nayak SN, Chitikineni A, Isleib TG, Holbrook CC, Jackson SA, Varshney RK, Ozias-Akins P, Molecular plant, 10(2):309-322 (2017).
    [Go to Pubmed]
  Transgenic tobacco plants constitutively expressing peanut BTF3 exhibit increased growth and tolerance to abiotic stresses.
    Pruthvi V, Rama N, Parvathi MS, Nataraja KN, Plant biology (Stuttgart, Germany), 19(3):377-385 (2017).
    [Go to Pubmed]
  Nymph and Adult Biology of Euschistus cornutus Dallas: a Potential Soybean Pest in the Neotropics.
    Panizzi AR, Webber NF, Lucini T, Neotropical entomology, 19(3):377-385 (2016).
    [Go to Pubmed]
  Contributions of rational soil tillage to compaction stress in main peanut producing areas of China.
    Shen P, Wu Z, Wang C, Luo S, Zheng Y, Yu T, Sun X, Sun X, Wang C, He X, Scientific reports, 6:38629 (2016).
    [Go to Pubmed]
  Determination of coefficient defining leaf area development in different genotypes, plant types and planting densities in peanut (Arachis hypogeae L.).
    Halilou O, Hissene HM, Clavijo Michelangeli JA, Hamidou F, Sinclair TR, Soltani A, Mahamane S, Vadez V, Field crops research, 199:42-51 (2016).
    [Go to Pubmed]
  Negative feedback regulation of ABA biosynthesis in peanut (Arachis hypogaea): a transcription factor complex inhibits AhNCED1 expression during water stress.
    Liu S, Li M, Su L, Ge K, Li L, Li X, Liu X, Li L, Scientific reports, 6:37943 (2016).
    [Go to Pubmed]
  Quantitative Trait Locus Analysis of Late Leaf Spot Resistance and Plant-Type-Related Traits in Cultivated Peanut (Arachis hypogaea L.) under Multi-Environments.
    Zhou X, Xia Y, Liao J, Liu K, Li Q, Dong Y, Ren X, Chen Y, Huang L, Liao B, Lei Y, Yan L, Jiang H, PloS one, 11(11):e0166873 (2016).
    [Go to Pubmed]
  Evidence of Genomic Exchanges between Homeologous Chromosomes in a Cross of Peanut with Newly Synthetized Allotetraploid Hybrids.
    Nguepjop JR, Tossim HA, Bell JM, Rami JF, Sharma S, Courtois B, Mallikarjuna N, Sane D, Fonceka D, Frontiers in plant science, 7:1635 (2016).
    [Go to Pubmed]
  Evolutionary dynamics of an at-rich satellite DNA and its contribution to karyotype differentiation in wild diploid Arachis species.
    Samoluk SS, Robledo G, Bertioli D, Seijo JG, Molecular genetics and genomics : MGG, 292(2):283-296 (2017).
    [Go to Pubmed]
  Gynophore miRNA analysis at different developmental stages in Arachis duranensis.
    Shen Y, Liu YH, Zhang XJ, Sha Q, Chen ZD, Genetics and molecular research : GMR, 15(4) (2016).
    [Go to Pubmed]
  Transcriptome Analysis of a New Peanut Seed Coat Mutant for the Physiological Regulatory Mechanism Involved in Seed Coat Cracking and Pigmentation.
    Wan L, Li B, Pandey MK, Wu Y, Lei Y, Yan L, Dai X, Jiang H, Zhang J, Wei G, Varshney RK, Liao B, Frontiers in plant science, 7:1491 (2016).
    [Go to Pubmed]
  A Developmental Transcriptome Map for Allotetraploid Arachis hypogaea.
    Clevenger J, Chu Y, Scheffler B, Ozias-Akins P, Frontiers in plant science, 7:1446 (2016).
    [Go to Pubmed]
  Transcriptome Sequencing of Diverse Peanut (Arachis) Wild Species and the Cultivated Species Reveals a Wealth of Untapped Genetic Variability.
    Chopra R, Burow G, Simpson CE, Chagoya J, Mudge J, Burow MD, G3 (Bethesda, Md.), 6(12):3825-3836 (2016).
    [Go to Pubmed]
  Differential isoform expression and protein localization from alternatively spliced Apetala2 in peanut under drought stress.
    Park SY, Grabau E, Journal of plant physiology, 206:98-102 (2016).
    [Go to Pubmed]
  Genetic diversity of the forage peanut in the Jequitinhonha, Sao Francisco, and Parana River valleys of Brazil.
    Azêvedo HS, Sousa AC, Martins K, Oliveira JC, Yomura RB, Silva LM, Valls JF, Assis GM, Campos T, Genetics and molecular research : GMR, 15(3) (2016).
    [Go to Pubmed]
  Engineering of a microbial coculture of Escherichia coli strains for the biosynthesis of resveratrol.
    Camacho-Zaragoza JM, Hernández-Chávez G, Moreno-Avitia F, Ramírez-Iñiguez R, Martínez A, Bolívar F, Gosset G, Microbial cell factories, 15(1):163 (2016).
    [Go to Pubmed]
  Identification of chemical ingredients of peanut stems and leaves extracts using UPLC-QTOF-MS coupled with novel informatics UNIFI platform.
    Deng L, Shi AM, Liu HZ, Meruva N, Liu L, Hu H, Yang Y, Huang C, Li P, Wang Q, Journal of mass spectrometry : JMS, 51(12):1157-1167 (2016).
    [Go to Pubmed]
  The Tomato Spotted Wilt Virus Genome Is Processed Differentially in its Plant Host Arachis hypogaea and its Thrips Vector Frankliniella fusca.
    Fletcher SJ, Shrestha A, Peters JR, Carroll BJ, Srinivasan R, Pappu HR, Mitter N, Frontiers in plant science, 7:1349 (2016).
    [Go to Pubmed]
  Insights into the Indian Peanut Genotypes for ahFAD2 Gene Polymorphism Regulating Its Oleic and Linoleic Acid Fluxes.
    Nawade B, Bosamia TC, Thankappan R, Rathnakumar AL, Kumar A, Dobaria JR, Kundu R, Mishra GP, Frontiers in plant science, 7:1271 (2016).
    [Go to Pubmed]
  Differential Expression of O-Glycans in CD4(+) T Lymphocytes from Patients with Systemic Lupus Erythematosus.
    Ramos-Martínez E, Lascurain R, Tenorio EP, Sánchez-González A, Chávez-Rueda K, Chávez-Sánchez L, Jara-Quezada LJ, Chávez-Sánchez R, Zenteno E, Blanco-Favela F, The Tohoku journal of experimental medicine, 240(1):79-89 (2016).
    [Go to Pubmed]
  Color and texture of low-calorie peanuts as affected by a new oil extraction process named "Mechanical Expression Preserving Shape Integrity" (MEPSI).
    Nader J, Afif C, Louka N, Journal of food science and technology, 53(3):1649-62 (2016).
    [Go to Pubmed]
  Evaluation of insertion-deletion markers suitable for genetic diversity studies and marker-trait correlation analyses in cultivated peanut (Arachis hypogaea L.).
    Meng S, Yang XL, Dang PM, Cui SL, Mu GJ, Chen CY, Liu LF, Genetics and molecular research : GMR, 15(3) (2016).
    [Go to Pubmed]
  Cloning and characterization of the dehydration-responsive element-binding protein 2A gene in Eruca vesicaria subsp sativa.
    Huang BL, Zhang XK, Li YY, Li DY, Ma MY, Cai DT, Wu WH, Huang BQ, Genetics and molecular research : GMR, 15(3) (2016).
    [Go to Pubmed]
  Comparative transcriptome analysis of basal and zygote-located tip regions of peanut ovaries provides insight into the mechanism of light regulation in peanut embryo and pod development.
    Zhang Y, Wang P, Xia H, Zhao C, Hou L, Li C, Gao C, Zhao S, Wang X, BMC genomics, 17(1):606 (2016).
    [Go to Pubmed]
  Shallow Whole Genome Sequencing for the Assembly of Complete Chloroplast Genome Sequence of Arachis hypogaea L.
    Prabhudas SK, Prayaga S, Madasamy P, Natarajan P, Frontiers in plant science, 7:1106 (2016).
    [Go to Pubmed]
  Genetic diversity and distribution of bradyrhizobia nodulating peanut in acid-neutral soils in Guangdong Province.
    Chen J, Hu M, Ma H, Wang Y, Wang ET, Zhou Z, Gu J, Systematic and applied microbiology, 39(6):418-27 (2016).
    [Go to Pubmed]
  Stress Inducible Expression of AtDREB1A Transcription Factor in Transgenic Peanut (Arachis hypogaea L.) Conferred Tolerance to Soil-Moisture Deficit Stress.
    Sarkar T, Thankappan R, Kumar A, Mishra GP, Dobaria JR, Frontiers in plant science, 7:935 (2016).
    [Go to Pubmed]
  Mapping Quantitative Trait Loci of Resistance to Tomato Spotted Wilt Virus and Leaf Spots in a Recombinant Inbred Line Population of Peanut (Arachis hypogaea L.) from SunOleic 97R and NC94022.
    Khera P, Pandey MK, Wang H, Feng S, Qiao L, Culbreath AK, Kale S, Wang J, Holbrook CC, Zhuang W, Varshney RK, Guo B, PloS one, 11(7):e0158452 (2016).
    [Go to Pubmed]
  Reproduction and Damage Potential of Five Geographical Ditylenchus africanus Populations on Peanut.
    Steenkamp S, De Waele D, McDonald A, Journal of nematology, 48(2):72-8 (2016).
    [Go to Pubmed]
  Nutritional composition and antioxidant activity of Spanish and Virginia groundnuts (Arachis hypogaea L.): a comparative study.
    Mahatma MK, Thawait LK, Bishi SK, Khatediya N, Rathnakumar AL, Lalwani HB, Misra JB, Journal of food science and technology, 53(5):2279-86 (2016).
    [Go to Pubmed]
  Differential Induction of Flavonoids in Groundnut in Response to Helicoverpa armigera and Aphis craccivora Infestation.
    War AR, Sharma SP, Sharma HC, International journal of insect science, 8:55-64 (2016).
    [Go to Pubmed]
  Study of surface carbohydrates in Galba truncatula tissues before and after infection with Fasciola hepatica.
    Georgieva K, Georgieva L, Mizinska-Boevska Y, Stoitsova SR, Memorias do Instituto Oswaldo Cruz, 111(7):475-83 (2016).
    [Go to Pubmed]
  Iron Oxide Nanoparticles as a Potential Iron Fertilizer for Peanut (Arachis hypogaea).
    Rui M, Ma C, Hao Y, Guo J, Rui Y, Tang X, Zhao Q, Fan X, Zhang Z, Hou T, Zhu S, Frontiers in plant science, 7:815 (2016).
    [Go to Pubmed]
  High transpiration efficiency increases pod yield under intermittent drought in dry and hot atmospheric conditions but less so under wetter and cooler conditions in groundnut (Arachis hypogaea (L.)).
    Vadez V, Ratnakumar P, Field crops research, 193:16-23 (2016).
    [Go to Pubmed]
  A Stilbenoid-Specific Prenyltransferase Utilizes Dimethylallyl Pyrophosphate from the Plastidic Terpenoid Pathway.
    Yang T, Fang L, Rimando AM, Sobolev V, Mockaitis K, Medina-Bolivar F, Plant physiology, 171(4):2483-98 (2016).
    [Go to Pubmed]
  DBA Lectin Binds to Highly Proliferative Mouse Erythroleukemia Cells.
    Swain A, Kulkeaw K, Tanaka Y, Nakanishi Y, Shirasawa S, Sugiyama D, Anticancer research, 36(7):3625-33 (2016).
    [Go to Pubmed]
  Overexpression of a novel peanut NBS-LRR gene AhRRS5 enhances disease resistance to Ralstonia solanacearum in tobacco.
    Zhang C, Chen H, Cai T, Deng Y, Zhuang R, Zhang N, Zeng Y, Zheng Y, Tang R, Pan R, Zhuang W, Plant biotechnology journal, 15(1):39-55 (2017).
    [Go to Pubmed]
  A gene-based map of the Nod factor-independent Aeschynomene evenia sheds new light on the evolution of nodulation and legume genomes.
    Chaintreuil C, Rivallan R, Bertioli DJ, Klopp C, Gouzy J, Courtois B, Leleux P, Martin G, Rami JF, Gully D, Parrinello H, Séverac D, Patrel D, Fardoux J, Ribière W, Boursot M, Cartieaux F, Czernic P, Ratet P, Mournet P, Giraud E, Arrighi JF, DNA research : an international journal for rapid publication of reports on genes and genomes, 23(4):365-76 (2016).
    [Go to Pubmed]
  Comparative leaf proteomics of drought-tolerant and -susceptible peanut in response to water stress.
    Katam R, Sakata K, Suravajhala P, Pechan T, Kambiranda DM, Naik KS, Guo B, Basha SM, Journal of proteomics, 143:209-26 (2016).
    [Go to Pubmed]
  Extraction, Purification and Primary Characterization of Polysaccharides from Defatted Peanut (Arachis hypogaea) Cakes.
    Liu H, Jiang N, Liu L, Sheng X, Shi A, Hu H, Yang Y, Wang Q, Molecules (Basel, Switzerland), 21(6) (2016).
    [Go to Pubmed]
  Genomic survey sequencing for development and validation of single-locus SSR markers in peanut (Arachis hypogaea L.).
    Zhou X, Dong Y, Zhao J, Huang L, Ren X, Chen Y, Huang S, Liao B, Lei Y, Yan L, Jiang H, BMC genomics, 17:420 (2016).
    [Go to Pubmed]
  Characterization and Transferable Utility of Microsatellite Markers in the Wild and Cultivated Arachis Species.
    Huang L, Wu B, Zhao J, Li H, Chen W, Zheng Y, Ren X, Chen Y, Zhou X, Lei Y, Liao B, Jiang H, PloS one, 11(5):e0156633 (2016).
    [Go to Pubmed]
  Genome-Wide Identification and Characterization of WRKY Gene Family in Peanut.
    Song H, Wang P, Lin JY, Zhao C, Bi Y, Wang X, Frontiers in plant science, 7:534 (2016).
    [Go to Pubmed]
  Gene expression profiling during seed-filling process in peanut with emphasis on oil biosynthesis networks.
    Gupta K, Kayam G, Faigenboim-Doron A, Clevenger J, Ozias-Akins P, Hovav R, Plant science : an international journal of experimental plant biology, 248:116-27 (2016).
    [Go to Pubmed]
  Identification of peanut (Arachis hypogaea) chromosomes using a fluorescence in situ hybridization system reveals multiple hybridization events during tetraploid peanut formation.
    Zhang L, Yang X, Tian L, Chen L, Yu W, The New phytologist, 211(4):1424-39 (2016).
    [Go to Pubmed]
  [Effects of single-seed sowing on canopy microenvironment, photosynthetic characteristics and pod yield of peanut (Arachis hypogaca)].
    Liang XY, Guo F, Zhang JL, Meng JJ, Li L, Wan SB, Li XG, Ying yong sheng tai xue bao = The journal of applied ecology, 26(12):3700-6 (2015).
    [Go to Pubmed]
  Characterization of the N-glycans of female Angiostrongylus cantonensis worms.
    Veríssimo CM, Morassutti AL, von Itzstein M, Sutov G, Hartley-Tassell L, McAtamney S, Dell A, Haslam SM, Graeff-Teixeira C, Experimental parasitology, 166:137-43 (2016).
    [Go to Pubmed]
  Segregation of nod-containing and nod-deficient bradyrhizobia as endosymbionts of Arachis hypogaea and as endophytes of Oryza sativa in intercropped fields of Bengal Basin, India.
    Guha S, Sarkar M, Ganguly P, Uddin MR, Mandal S, DasGupta M, Environmental microbiology, 18(8):2575-90 (2016).
    [Go to Pubmed]
  Chlorophyll fluorescence induction kinetics and yield responses in rainfed crops with variable potassium nutrition in K deficient semi-arid alfisols.
    Srinivasarao Ch, Shanker AK, Kundu S, Reddy S, Journal of photochemistry and photobiology. B, Biology, 160:86-95 (2016).
    [Go to Pubmed]
  Regulation of the Phenylpropanoid Pathway: A Mechanism of Selenium Tolerance in Peanut (Arachis hypogaea L.) Seedlings.
    Wang G, Wu L, Zhang H, Wu W, Zhang M, Li X, Wu H, Journal of agricultural and food chemistry, 64(18):3626-35 (2016).
    [Go to Pubmed]
  A novel zinc-binding alcohol dehydrogenase 2 from Arachis diogoi, expressed in resistance responses against late leaf spot pathogen, induces cell death when transexpressed in tobacco.
    Kumar D, Rampuria S, Singh NK, Kirti PB, FEBS open bio, 6(3):200-10 (2016).
    [Go to Pubmed]
  An oxidative burst and its attenuation by bacterial peroxidase activity is required for optimal establishment of the Arachis hypogaea-Bradyrhizobium sp. symbiosis.
    Muñoz V, Ibáñez F, Figueredo MS, Fabra A, Journal of applied microbiology, 121(1):244-53 (2016).
    [Go to Pubmed]
  Targeted expression of cystatin restores fertility in cysteine protease induced male sterile tobacco plants.
    Shukla P, Subhashini M, Singh NK, Ahmed I, Trishla S, Kirti PB, Plant science : an international journal of experimental plant biology, 246:52-61 (2016).
    [Go to Pubmed]
  Ectopic Expression of an Atypical Hydrophobic Group 5 LEA Protein from Wild Peanut, Arachis diogoi Confers Abiotic Stress Tolerance in Tobacco.
    Sharma A, Kumar D, Kumar S, Rampuria S, Reddy AR, Kirti PB, PloS one, 11(3):e0150609 (2016).
    [Go to Pubmed]
  Cloning and characterization of SPL-family genes in the peanut (Arachis hypogaea L.).
    Li M, Zhao SZ, Zhao CZ, Zhang Y, Xia H, Lopez-Baltazar J, Wan SB, Wang XJ, Genetics and molecular research : GMR, 15(1) (2016).
    [Go to Pubmed]
  The genome sequences of Arachis duranensis and Arachis ipaensis, the diploid ancestors of cultivated peanut.
    Bertioli DJ, Cannon SB, Froenicke L, Huang G, Farmer AD, Cannon EK, Liu X, Gao D, Clevenger J, Dash S, Ren L, Moretzsohn MC, Shirasawa K, Huang W, Vidigal B, Abernathy B, Chu Y, Niederhuth CE, Umale P, Araújo AC, Kozik A, Kim KD, Burow MD, Varshney RK, Wang X, Zhang X, Barkley N, Guimarães PM, Isobe S, Guo B, Liao B, Stalker HT, Schmitz RJ, Scheffler BE, Leal-Bertioli SC, Xun X, Jackson SA, Michelmore R, Ozias-Akins P, Nature genetics, 48(4):438-46 (2016).
    [Go to Pubmed]
  QTL mapping for bacterial wilt resistance in peanut (Arachis hypogaea L.).
    Zhao Y, Zhang C, Chen H, Yuan M, Nipper R, Prakash CS, Zhuang W, He G, Molecular breeding : new strategies in plant improvement, 36:13 (2016).
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  Identification of genes differentially expressed during early interactions between the stem rot fungus (Sclerotium rolfsii) and peanut (Arachis hypogaea) cultivars with increasing disease resistance levels.
    Jogi A, Kerry JW, Brenneman TB, Leebens-Mack JH, Gold SE, Microbiological research, 184:1-12 (2016).
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  Quantitative trait locus analysis for pod- and kernel-related traits in the cultivated peanut (Arachis hypogaea L.).
    Chen W, Jiao Y, Cheng L, Huang L, Liao B, Tang M, Ren X, Zhou X, Chen Y, Jiang H, BMC genetics, 17:25 (2016).
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  Data in support of proteome analysis of gynophores and early swelling pods of peanut (Arachis hypogaea L.).
    Xia H, Jiang N, Hou L, Zhang Y, Li C, Li A, Zhao C, Data in brief, 5:1056-9 (2015).
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  [Characteristics of soil pH and exchangeable acidity in red soil profile under different vegetation types].
    Ji G, Xu MG, Wen SL, Wang BR, Zhang L, Liu LS, Ying yong sheng tai xue bao = The journal of applied ecology, 26(9):2639-45 (2015).
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  Crossability of Arachis valida and B genome Arachis species.
    Wondracek-Lüdke DC, Custodio AR, Simpson CE, Valls JF, Genetics and molecular research : GMR, 14(4):17574-86 (2015).
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  Seed Oil from Ten Algerian Peanut Landraces for Edible Use and Biodiesel Production.
    Giuffrè AM, Tellah S, Capocasale M, Zappia C, Latati M, Badiani M, Ounane SM, Journal of oleo science, 65(1):9-20 (2016).
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  Identification and Evaluation of Single-Nucleotide Polymorphisms in Allotetraploid Peanut (Arachis hypogaea L.) Based on Amplicon Sequencing Combined with High Resolution Melting (HRM) Analysis.
    Hong Y, Pandey MK, Liu Y, Chen X, Liu H, Varshney RK, Liang X, Huang S, Frontiers in plant science, 6:1068 (2015).
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  New hybrids from peanut (Arachis hypogaea L.) and synthetic amphidiploid crosses show promise in increasing pest and disease tolerance.
    Fávero AP, Pádua JG, Costa TS, Gimenes MA, Godoy IJ, Moretzsohn MC, Michelotto MD, Genetics and molecular research : GMR, 14(4):16694-703 (2015).
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  [Expression of nNOS and ultrastructural changes in the penile tissue of rats with prolactinoma-induced erectile dysfunction].
    Weng BW, Hou SC, Zhu H, Xu L, Luan X, Qi HY, Wang WM, Liu W, Sun LJ, Zhonghua nan ke xue = National journal of andrology, 21(10):871-6 (2015).
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  Genetic Mapping of Resistance to Meloidogyne arenaria in Arachis stenosperma: A New Source of Nematode Resistance for Peanut.
    Leal-Bertioli SC, Moretzsohn MC, Roberts PA, Ballén-Taborda C, Borba TC, Valdisser PA, Vianello RP, Araújo AC, Guimarães PM, Bertioli DJ, G3 (Bethesda, Md.), 6(2):377-90 (2015).
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  Glutathione S-transferase SlGSTE1 in Spodoptera litura may be associated with feeding adaptation of host plants.
    Zou X, Xu Z, Zou H, Liu J, Chen S, Feng Q, Zheng S, Insect biochemistry and molecular biology, 70:32-43 (2016).
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  Microbiological and faunal soil attributes of coffee cultivation under different management systems in Brazil.
    Lammel DR, Azevedo LC, Paula AM, Armas RD, Baretta D, Cardoso EJ, Brazilian journal of biology = Revista brasleira de biologia, 75(4):894-905 (2015).
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  Development and Utilization of InDel Markers to Identify Peanut (Arachis hypogaea) Disease Resistance.
    Liu L, Dang PM, Chen CY, Frontiers in plant science, 6:988 (2015).
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  Identification of quantitative trait loci for yield and yield related traits in groundnut (Arachis hypogaea L.) under different water regimes in Niger and Senegal.
    Faye I, Pandey MK, Hamidou F, Rathore A, Ndoye O, Vadez V, Varshney RK, Euphytica: Netherlands journal of plant breeding, 206(3):631-647 (2015).
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  Effect of end of season water deficit on phenolic compounds in peanut genotypes with different levels of resistance to drought.
    Aninbon C, Jogloy S, Vorasoot N, Patanothai A, Nuchadomrong S, Senawong T, Food chemistry, 196:123-9 (2016).
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  Transcriptome-wide sequencing provides insights into geocarpy in peanut (Arachis hypogaea L.).
    Chen X, Yang Q, Li H, Li H, Hong Y, Pan L, Chen N, Zhu F, Chi X, Zhu W, Chen M, Liu H, Yang Z, Zhang E, Wang T, Zhong N, Wang M, Liu H, Wen S, Li X, Zhou G, Li S, Wu H, Varshney R, Liang X, Yu S, Plant biotechnology journal, 14(5):1215-24 (2016).
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  Successful crosses between fungal-resistant wild species of Arachis (section Arachis) and Arachis hypogaea.
    Fávero AP, Dos Santos RF, Simpson CE, Valls JF, Vello NA, Genetics and molecular biology, 38(3):353-65 (2015).
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  Root Transcriptome Analysis of Wild Peanut Reveals Candidate Genes for Nematode Resistance.
    Guimaraes PM, Guimaraes LA, Morgante CV, Silva OB Jr, Araujo AC, Martins AC, Saraiva MA, Oliveira TN, Togawa RC, Leal-Bertioli SC, Bertioli DJ, Brasileiro AC, PloS one, 10(10):e0140937 (2015).
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  Bradyrhizobium vignae sp. nov., a nitrogen-fixing symbiont isolated from effective nodules of Vigna and Arachis.
    Grönemeyer JL, Hurek T, Bünger W, Reinhold-Hurek B, International journal of systematic and evolutionary microbiology, 66(1):62-9 (2016).
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  Bradyrhizobium kavangense sp. nov., a symbiotic nitrogen-fixing bacterium from root nodules of traditional Namibian pulses.
    Lasse Grönemeyer J, Hurek T, Reinhold-Hurek B, International journal of systematic and evolutionary microbiology, 65(12):4886-94 (2015).
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  Bradyrhizobium guangdongense sp. nov. and Bradyrhizobium guangxiense sp. nov., isolated from effective nodules of peanut.
    Li YH, Wang R, Zhang XX, Young JP, Wang ET, Sui XH, Chen WX, International journal of systematic and evolutionary microbiology, 65(12):4655-61 (2015).
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  Cadmium re-distribution from pod and root zones and accumulation by peanut (Arachis hypogaea L.).
    Wang K, Song N, Zhao Q, van der Zee SE, Environmental science and pollution research international, 23(2):1441-8 (2016).
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  Molecular marker development from transcript sequences and germplasm evaluation for cultivated peanut (Arachis hypogaea L.).
    Peng Z, Gallo M, Tillman BL, Rowland D, Wang J, Molecular genetics and genomics : MGG, 291(1):363-81 (2016).
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  Simultaneous column chromatographic extraction and purification of abscisic acid in peanut plants for direct HPLC analysis.
    Zhang YW, Fan WW, Li H, Ni H, Han HB, Li HH, Journal of chromatography. B, Analytical technologies in the biomedical and life sciences, 1002:277-84 (2015).
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  Insights into the novel members of the FAD2 gene family involved in high-oleate fluxes in peanut.
    Wang Y, Zhang X, Zhao Y, Prakash CS, He G, Yin D, Genome, 58(8):375-83 (2015).
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  Impact of Location, Cropping History, Tillage, and Chlorpyrifos on Soil Arthropods in Peanut.
    Cardoza YJ, Drake WL, Jordan DL, Schroeder-Moreno MS, Arellano C, Brandenburg RL, Environmental entomology, 44(4):951-9 (2015).
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  Bioassay-guided isolation of proanthocyanidins with antioxidant activity from peanut (Arachis hypogaea) skin by combination of chromatography techniques.
    Oldoni TL, Melo PS, Massarioli AP, Moreno IA, Bezerra RM, Rosalen PL, da Silva GV, Nascimento AM, Alencar SM, Food chemistry, 192:306-12 (2016).
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  Leaf aquaporin transcript abundance in peanut genotypes diverging in expression of the limited-transpiration trait when subjected to differing vapor pressure deficits and aquaporin inhibitors.
    Devi MJ, Sinclair TR, Jain M, Gallo M, Physiologia plantarum, 156(4):387-96 (2016).
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  The Peanut (Arachis hypogaea L.) Gene AhLPAT2 Increases the Lipid Content of Transgenic Arabidopsis Seeds.
    Chen S, Lei Y, Xu X, Huang J, Jiang H, Wang J, Cheng Z, Zhang J, Song Y, Liao B, Li Y, PloS one, 10(8):e0136170 (2015).
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  Correction: Introgression of the SbASR-1 Gene Cloned from a Halophyte Salicornia brachiata Enhances Salinity and Drought Endurance in Transgenic Groundnut (Arachis hypogaea) and Acts as a Transcription Factor.
    PLOS ONE Staff, PloS one, 10(8):e0135541 (2015).
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  Annotation of Stress-Responsive Candidate Genes in Peanut ESTs.
    Ranjan A, Kumari A, Pandey DM, Interdisciplinary sciences, computational life sciences, 7(2):143-51 (2015).
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  Proteomics analysis reveals differentially activated pathways that operate in peanut gynophores at different developmental stages.
    Zhao C, Zhao S, Hou L, Xia H, Wang J, Li C, Li A, Li T, Zhang X, Wang X, BMC plant biology, 15:188 (2015).
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  Chemical and rheological properties of exopolysaccharides produced by four isolates of rhizobia.
    Moretto C, Castellane TC, Lopes EM, Omori WP, Sacco LP, Lemos EG, International journal of biological macromolecules, 81:291-8 (2015).
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  Isolation and characterization of an osmotic stress and ABA induced histone deacetylase in Arachis hygogaea.
    Su LC, Deng B, Liu S, Li LM, Hu B, Zhong YT, Li L, Frontiers in plant science, 6:512 (2015).
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  Binding and stabilisation effects of glycodendritic compounds with peanut agglutinin.
    Sleiman MH, Csonka R, Arbez-Gindre C, Heropoulos GA, Calogeropoulou T, Signorelli M, Schiraldi A, Steele BR, Fessas D, Micha-Screttas M, International journal of biological macromolecules, 80:692-701 (2015).
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  Bradyrhizobium subterraneum sp. nov., a symbiotic nitrogen-fixing bacterium from root nodules of groundnuts.
    Grönemeyer JL, Chimwamurombe P, Reinhold-Hurek B, International journal of systematic and evolutionary microbiology, 65(10):3241-7 (2015).
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  Effects of drought on cadmium accumulation in peanuts grown in a contaminated calcareous soil.
    Xia S, Wang X, Su G, Shi G, Environmental science and pollution research international, 22(23):18707-17 (2015).
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  Analysis of genetic diversity and population structure of peanut cultivars and breeding lines from China, India and the US using simple sequence repeat markers.
    Wang H, Khera P, Huang B, Yuan M, Katam R, Zhuang W, Harris-Shultz K, Moore KM, Culbreath AK, Zhang X, Varshney RK, Xie L, Guo B, Journal of integrative plant biology, 58(5):452-65 (2016).
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  Belonolaimus longicaudatus: An Emerging Pathogen of Peanut in Florida.
    Kutsuwa K, Dickson DW, Brito JA, Jeyaprakash A, Drew A, Journal of nematology, 47(2):87-96 (2015).
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  Introgression of the SbASR-1 gene cloned from a halophyte Salicornia brachiate enhances salinity and drought endurance in transgenic groundnut (arachis hypogaea)and acts as a transcription factor [corrected].
    Tiwari V, Chaturvedi AK, Mishra A, Jha B, PloS one, 10(7):e0131567 (2015).
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  Simultaneous analysis of herbicides pendimethalin, oxyfluorfen, imazethapyr and quizalofop-p-ethyl by LC-MS/MS and safety evaluation of their harvest time residues in peanut (Arachis hypogaea L.).
    Saha A, Shabeer T P A, Banerjee K, Hingmire S, Bhaduri D, Jain NK, Utture S, Journal of food science and technology, 52(7):4001-14 (2015).
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  Identification and expression dynamics of three WUSCHEL related homeobox 13 (WOX13) genes in peanut.
    Wang P, Li C, Li C, Zhao C, Xia H, Zhao S, Hou L, Gao C, Wan S, Wang X, Development genes and evolution, 225(4):221-33 (2015).
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  Construction, expression, and characterization of Arabidopsis thaliana 4CL and Arachis hypogaea RS fusion gene 4CL::RS in Escherichia coli.
    Zhang E, Guo X, Meng Z, Wang J, Sun J, Yao X, Xun H, World journal of microbiology & biotechnology, 31(9):1379-85 (2015).
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  Identification of Fungus Resistant Wild Accessions and Interspecific Hybrids of the Genus Arachis.
    Michelotto MD, Barioni W Jr, de Resende MD, de Godoy IJ, Leonardecz E, Fávero AP, PloS one, 10(6):e0128811 (2015).
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  Identification of low Ca(2+) stress-induced embryo apoptosis response genes in Arachis hypogaea by SSH-associated library lift (SSHaLL).
    Chen H, Zhang C, Cai TC, Deng Y, Zhou S, Zheng Y, Ma S, Tang R, Varshney RK, Zhuang W, Plant biotechnology journal, 14(2):682-98 (2016).
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  New features of triacylglycerol biosynthetic pathways of peanut seeds in early developmental stages.
    Yu M, Liu F, Zhu W, Sun M, Liu J, Li X, Functional & integrative genomics, 15(6):707-16 (2015).
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  Global Synthesis of Drought Effects on Food Legume Production.
    Daryanto S, Wang L, Jacinthe PA, PloS one, 10(6):e0127401 (2015).
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  O-glycosylation of alpha-1-acid glycoprotein of human milk is lactation stage related.
    Orczyk-Pawiłowicz M, Berghausen-Mazur M, Hirnle L, Kątnik-Prastowska I, Breastfeeding medicine : the official journal of the Academy of Breastfeeding Medicine, 10(5):270-6 (2015).
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  Tillage impact on herbicide loss by surface runoff and lateral subsurface flow.
    Potter TL, Bosch DD, Strickland TC, The Science of the total environment, 530-531:357-66 (2015).
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  Novel and Stress Relevant EST Derived SSR Markers Developed and Validated in Peanut.
    Bosamia TC, Mishra GP, Thankappan R, Dobaria JR, PloS one, 10(6):e0129127 (2015).
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  Stable Fluorescent and Enzymatic Tagging of Bradyrhizobium diazoefficiens to Analyze Host-Plant Infection and Colonization.
    Ledermann R, Bartsch I, Remus-Emsermann MN, Vorholt JA, Fischer HM, Molecular plant-microbe interactions : MPMI, 28(9):959-67 (2015).
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  Rhizobium anhuiense sp. nov., isolated from effective nodules of Vicia faba and Pisum sativum.
    Zhang YJ, Zheng WT, Everall I, Young JP, Zhang XX, Tian CF, Sui XH, Wang ET, Chen WX, International journal of systematic and evolutionary microbiology, 65(9):2960-7 (2015).
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  Molecular cloning and characterization of annexin genes in peanut (Arachis hypogaea L.).
    He M, Yang X, Cui S, Mu G, Hou M, Chen H, Liu L, Gene, 568(1):40-9 (2015).
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  Peanut violaxanthin de-epoxidase alleviates the sensitivity of PSII photoinhibition to heat and high irradiance stress in transgenic tobacco.
    Yang S, Meng DY, Hou LL, Li Y, Guo F, Meng JJ, Wan SB, Li XG, Plant cell reports, 34(8):1417-28 (2015).
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  Chryseobacterium arachidiradicis sp. nov., isolated from the geocarposphere (soil around the peanut) of very immature peanuts (Arachis hypogaea).
    Kämpfer P, Busse HJ, McInroy JA, Glaeser SP, International journal of systematic and evolutionary microbiology, 65(7):2179-86 (2015).
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  Quantitative trait locus analysis of agronomic and quality-related traits in cultivated peanut (Arachis hypogaea L.).
    Huang L, He H, Chen W, Ren X, Chen Y, Zhou X, Xia Y, Wang X, Jiang X, Liao B, Jiang H, TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik, 128(6):1103-15 (2015).
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  Sequence and expression analysis of putative Arachis hypogaea (peanut) Nod factor perception proteins.
    Ibáñez F, Angelini J, Figueredo MS, Muñoz V, Tonelli ML, Fabra A, Journal of plant research, 128(4):709-18 (2015).
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  Reduction of Platelet Aggregation From Ingestion of Oleic and Linoleic Acids Found in Vitis vinifera and Arachis hypogaea Oils.
    Bazán-Salinas IL, Matías-Pérez D, Pérez-Campos E, Pérez-Campos Mayoral L, García-Montalvo IA, American journal of therapeutics, 23(6):e1315-e1319 (2016).
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  An economical and efficient technology for the extraction of resveratrol from peanut (Arachis hypogaea) sprouts by multi-stage countercurrent extraction.
    Zhang Q, Bian Y, Shi Y, Zheng S, Gu X, Zhang D, Zhu X, Wang X, Jiang D, Xiong Q, Food chemistry, 179:15-25 (2015).
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  Next-generation transcriptome sequencing, SNP discovery and validation in four market classes of peanut, Arachis hypogaea L.
    Chopra R, Burow G, Farmer A, Mudge J, Simpson CE, Wilkins TA, Baring MR, Puppala N, Chamberlin KD, Burow MD, Molecular genetics and genomics : MGG, 290(3):1169-80 (2015).
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  Impact of plant development on the rhizobacterial population of Arachis hypogaea: a multifactorial analysis.
    Haldar S, Sengupta S, Journal of basic microbiology, 55(7):922-8 (2015).
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  Determining the major Bt refuge crops for cotton bollworm in North China.
    Ye LF, Fu X, Ouyang F, Xie BY, Ge F, Insect science, (2015).
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