[HTML][HTML] Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus
C Chen, S Wu, Y Sun, J Zhou, Y Chen, J Zhang… - Genome Biology, 2024 - Springer
Background Centromeres are critical for maintaining genomic stability in eukaryotes, and
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
[HTML][HTML] Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus
C Chen, S Wu, Y Sun, J Zhou, Y Chen, J Zhang… - Genome …, 2024 - ncbi.nlm.nih.gov
Background Centromeres are critical for maintaining genomic stability in eukaryotes, and
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus
C Chen, S Wu, Y Sun, J Zhou, Y Chen, J Zhang… - Genome …, 2024 - europepmc.org
Background Centromeres are critical for maintaining genomic stability in eukaryotes, and
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus
C Chen, S Wu, Y Sun, J Zhou, Y Chen… - Genome …, 2024 - pubmed.ncbi.nlm.nih.gov
Background Centromeres are critical for maintaining genomic stability in eukaryotes, and
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
[HTML][HTML] Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus
C Chen, S Wu, Y Sun, J Zhou… - Genome …, 2024 - genomebiology.biomedcentral.com
Centromeres are critical for maintaining genomic stability in eukaryotes, and their turnover
shapes genome architectures and drives karyotype evolution. However, the co-evolution of …
shapes genome architectures and drives karyotype evolution. However, the co-evolution of …
Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus.
C Chen, S Wu, Y Sun, J Zhou, Y Chen, J Zhang… - Genome …, 2024 - europepmc.org
Background Centromeres are critical for maintaining genomic stability in eukaryotes, and
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
[PDF][PDF] Three near-complete genome assemblies reveal substantial centromere dynamics from diploid to tetraploid in Brachypodium genus
C Chen, S Wu, Y Sun, J Zhou, Y Chen, J Zhang… - 2024 - genomebiology.biomedcentral.com
Background: Centromeres are critical for maintaining genomic stability in eukaryotes, and
their turnover shapes genome architectures and drives karyotype evolution. However, the co …
their turnover shapes genome architectures and drives karyotype evolution. However, the co …