日期 影响因子
日期:
2020 年 — 2026 年
2020
2021
2022
2023
2024
2025
2026
影响因子:

High Temperature Tolerance in a Novel, High-Quality Phaseolus vulgaris Breeding Line Is Due to Maintenance of Pollen Viability and Successful Germination on the Stigma

一种新型优质菜豆育种系的耐高温性源于其花粉活力的维持和在柱头上的成功萌发。

期刊:Plants-Basel
影响因子:4.1
doi:10.3390/plants12132491
Rose, Teresa; Lowe, Claudia; Miret, Javier A; Walpole, Hannah; Halsey, Kirstie; Venter, Eudri; Urban, Milan O; Buendia, Hector Fabio; Kurup, Smita; O'Sullivan, Donal Martin; Beebe, Steve; Heuer, Sigrid
发表日期:2023
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Characterizing patterns of seasonal drought stress for use in common bean breeding in East Africa under present and future climates

描述东非地区在当前和未来气候条件下普通豆类育种中季节性干旱胁迫的模式

期刊:
影响因子:
doi:10.1016/j.agrformet.2023.109735
Jha, Prakash K; Beebe, Steve; Alvarez-Toro, Patricia; Mukankusi, Clare; Ramirez-Villegas, Julian
发表日期:2023
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Large genomic introgression blocks of Phaseolus parvifolius Freytag bean into the common bean enhance the crossability between tepary and common beans

将小叶菜豆(Phaseolus parvifolius Freytag bean)的大片段基因组导入普通菜豆(common sane)中,可提高特帕里菜豆(tepary sane)和普通菜豆之间的杂交能力。

期刊:Plant Direct
影响因子:2.3
doi:10.1002/pld3.470
Barrera, Santos; Berny Mier Y Teran, Jorge C; Lobaton, Juan David; Escobar, Roosevelt; Gepts, Paul; Beebe, Steve; Urrea, Carlos A
发表日期:2022
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Fine-mapping of angular leaf spot resistance gene Phg-2 in common bean and development of molecular breeding tools

普通菜豆角斑病抗性基因 Phg-2 的精细定位及分子育种工具的开发

期刊:Theoretical and Applied Genetics
影响因子:4.2
doi:10.1007/s00122-019-03334-z
Gil, Juanita; Solarte, Diana; Lobaton, Juan David; Mayor, Victor; Barrera, Santos; Jara, Carlos; Beebe, Steve; Raatz, Bodo
发表日期:2019
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Single and Multi-trait GWAS Identify Genetic Factors Associated with Production Traits in Common Bean Under Abiotic Stress Environments

单性状和多性状全基因组关联分析鉴定非生物胁迫环境下普通豆产量性状相关的遗传因子

期刊:G3-Genes Genomes Genetics
影响因子:2.2
doi:10.1534/g3.119.400072
Oladzad, Atena; Porch, Timothy; Rosas, Juan Carlos; Moghaddam, Samira Mafi; Beaver, James; Beebe, Steve E; Burridge, Jimmy; Jochua, Celestina Nhagupana; Miguel, Magalhaes Amade; Miklas, Phillip N; Raatz, Bodo; White, Jeffery W; Lynch, Jonathan; McClean, Phillip E
发表日期:2019
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Genomics, genetics and breeding of common bean in Africa: A review of tropical legume project

非洲普通豆的基因组学、遗传学和育种:热带豆科植物项目综述

期刊:
影响因子:
doi:10.1111/pbr.12573
Mukankusi, Clare; Raatz, Bodo; Nkalubo, Stanley; Berhanu, Fenta; Binagwa, Papias; Kilango, Michael; Williams, Magdalena; Enid, Katungi; Chirwa, Rowland; Beebe, Steve
发表日期:2019
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Iron Bioavailability Studies of the First Generation of Iron-Biofortified Beans Released in Rwanda.

卢旺达推出的第一代铁强化豆的铁生物利用度研究

期刊:Nutrients
影响因子:5
doi:10.3390/nu9070787
Glahn Raymond, Tako Elad, Hart Jonathan, Haas Jere, Lung'aho Mercy, Beebe Steve
发表日期:2017
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Priority regions for research on dryland cereals and legumes

旱地谷物和豆类作物研究的优先区域

期刊:F1000Research
影响因子:
doi:10.12688/f1000research.8657.2
Hyman, Glenn; Barona, Elizabeth; Biradar, Chandrashekhar; Guevara, Edward; Dixon, John; Beebe, Steve; Castano, Silvia Elena; Alabi, Tunrayo; Gumma, Murali Krishna; Sivasankar, Shoba; Rivera, Ovidio; Espinosa, Herlin; Cardona, Jorge
发表日期:2016
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Studies of Cream Seeded Carioca Beans (Phaseolus vulgaris L.) from a Rwandan Efficacy Trial: In Vitro and In Vivo Screening Tools Reflect Human Studies and Predict Beneficial Results from Iron Biofortified Beans

来自卢旺达功效试验的奶油籽卡里奥卡豆(菜豆)研究:体外和体内筛选工具反映了人体研究,并预测了铁强化豆的有益结果

期刊:PLoS One
影响因子:2.6
doi:10.1371/journal.pone.0138479
Tako, Elad; Reed, Spenser; Anandaraman, Amrutha; Beebe, Steve E; Hart, Jonathan J; Glahn, Raymond P
Human
发表日期:2015
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Polyphenolic compounds appear to limit the nutritional benefit of biofortified higher iron black bean (Phaseolus vulgaris L.)

多酚类化合物似乎限制了生物强化高铁黑豆(Phaseolus vulgaris L.)的营养价值。

期刊:Nutrition Journal
影响因子:3.8
doi:10.1186/1475-2891-13-28
Tako, Elad; Beebe, Steve E; Reed, Spenser; Hart, Jonathan J; Glahn, Raymond P
发表日期:2014
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