[HTML][HTML] Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga, S Teramoto… - Frontiers in Plant …, 2023 - frontiersin.org
To increase food production under the challenges presented by global climate change, the
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga, S Teramoto… - Frontiers in Plant …, 2023 - europepmc.org
To increase food production under the challenges presented by global climate change, the
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga… - Frontiers in plant …, 2023 - pubmed.ncbi.nlm.nih.gov
To increase food production under the challenges presented by global climate change, the
concept of de novo domestication-utilizing stress-tolerant wild species as new crops-has …
concept of de novo domestication-utilizing stress-tolerant wild species as new crops-has …
[HTML][HTML] Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga, S Teramoto… - Frontiers in Plant …, 2023 - frontiersin.org
To increase food production under the challenges presented by global climate change, the
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
[PDF][PDF] Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga, S Teramoto… - 2023 - scienceopen.com
Owing to the effects of climate change on food production, de novo domestication of stress-
tolerant wild species has recently gained considerable attention (Fernie and Yan, 2019; …
tolerant wild species has recently gained considerable attention (Fernie and Yan, 2019; …
Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga, S Teramoto… - Frontiers in Plant …, 2023 - cir.nii.ac.jp
抄録< jats: p> To increase food production under the challenges presented by global climate
change, the concept of< jats: italic> de novo</jats: italic> domestication—utilizing stress …
change, the concept of< jats: italic> de novo</jats: italic> domestication—utilizing stress …
Domesticating Vigna stipulacea: chromosome-level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness.
Y Takahashi, H Sakai, H Ariga, S Teramoto… - 2023 - cabidigitallibrary.org
To increase food production under the challenges presented by global climate change, the
concept of de novo domestication-utilizing stress-tolerant wild species as new crops-has …
concept of de novo domestication-utilizing stress-tolerant wild species as new crops-has …
[HTML][HTML] Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
Y Takahashi, H Sakai, H Ariga, S Teramoto… - Frontiers in Plant …, 2023 - ncbi.nlm.nih.gov
To increase food production under the challenges presented by global climate change, the
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
concept of de novo domestication—utilizing stress-tolerant wild species as new crops—has …
[引用][C] Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness
高橋有 - Frontiers in Plant Science, 2023 - cir.nii.ac.jp
Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as
a candidate gene decreasing hard-seededness | CiNii Research CiNii 国立情報学研究所 学術 …
a candidate gene decreasing hard-seededness | CiNii Research CiNii 国立情報学研究所 学術 …
Domesticating Vigna stipulacea: Chromosome-Level genome assembly reveals VsPSAT1 as a candidate gene decreasing hard-seededness.
Y Takahashi, H Sakai, H Ariga, S Teramoto… - Frontiers in Plant …, 2023 - europepmc.org
To increase food production under the challenges presented by global climate change, the
concept of de novo domestication-utilizing stress-tolerant wild species as new crops-has …
concept of de novo domestication-utilizing stress-tolerant wild species as new crops-has …