[HTML][HTML] Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus
Background Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus
HS Shin, HR Park, JE Park, SH Yu, GB Yi… - Genes and …, 2021 - oldkmbase.medric.or.kr
Background: Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus.
H Shin, HR Park, JE Park, SH Yu, G Yi, JH Kim, W Koh… - 2021 - cabidigitallibrary.org
Background: Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
[HTML][HTML] Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus
H Shin, HR Park, JE Park, SH Yu, G Yi, JH Kim… - Genes & …, 2021 - ncbi.nlm.nih.gov
Background Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus.
H Shin, HR Park, JE Park, SH Yu, G Yi, JH Kim… - Genes & …, 2021 - europepmc.org
Background Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
[PDF][PDF] Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus
H Shin, HR Park, JE Park, SH Yu, G Yi, JH Kim, W Koh… - 2021 - academia.edu
Background Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus
H Shin, HR Park, JE Park, SH Yu, G Yi… - Genes & …, 2021 - pubmed.ncbi.nlm.nih.gov
Background Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in xBrassicoraphanus
H Shin, HR Park, JE Park, SH Yu, G Yi, JH Kim… - Genes & …, 2021 - dbpia.co.kr
Background Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …
[HTML][HTML] Reduced fertility caused by meiotic defects and micronuclei formation during microsporogenesis in x< em> Brassicoraphanus</em
H Shin, HR Park, JE Park, SH Yu, G Yi, JH Kim, W Koh… - pillintrip.com
Background Hybridization and polyploidization events are important driving forces in plant
evolution. Allopolyploids formed between different species can be naturally or artificially …
evolution. Allopolyploids formed between different species can be naturally or artificially …