SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891563800> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W2891563800 abstract "Background Bamboo is one of the most important nontimber forestry products worldwide. However, a chromosome-level reference genome is lacking, and an evolutionary view of alternative splicing (AS) in bamboo remains unclear despite emerging omics data and improved technologies. Results Here, we provide a chromosome-level de novo genome assembly of moso bamboo (Phyllostachys edulis) using additional abundance sequencing data and a Hi-C scaffolding strategy. The significantly improved genome is a scaffold N50 of 79.90 Mb, approximately 243 times longer than the previous version. A total of 51,074 high-quality protein-coding loci with intact structures were identified using single-molecule real-time sequencing and manual verification. Moreover, we provide a comprehensive AS profile based on the identification of 266,711 unique AS events in 25,225 AS genes by large-scale transcriptomic sequencing of 26 representative bamboo tissues using both the Illumina and Pacific Biosciences sequencing platforms. Through comparisons with orthologous genes in related plant species, we observed that the AS genes are concentrated among more conserved genes that tend to accumulate higher transcript levels and share less tissue specificity. Furthermore, gene family expansion, abundant AS, and positive selection were identified in crucial genes involved in the lignin biosynthetic pathway of moso bamboo. Conclusions These fundamental studies provide useful information for future in-depth analyses of comparative genome and AS features. Additionally, our results highlight a global perspective of AS during evolution and diversification in bamboo." @default.
W2891563800 created "2018-09-27" @default.
W2891563800 creator A5002563387 @default.
W2891563800 creator A5003106879 @default.
W2891563800 creator A5004969934 @default.
W2891563800 creator A5009208331 @default.
W2891563800 creator A5009217135 @default.
W2891563800 creator A5010675918 @default.
W2891563800 creator A5012495842 @default.
W2891563800 creator A5014041508 @default.
W2891563800 creator A5025806090 @default.
W2891563800 creator A5030647557 @default.
W2891563800 creator A5030957404 @default.
W2891563800 creator A5035003808 @default.
W2891563800 creator A5035367503 @default.
W2891563800 creator A5041426465 @default.
W2891563800 creator A5048075663 @default.
W2891563800 creator A5051046606 @default.
W2891563800 creator A5064923496 @default.
W2891563800 creator A5075804751 @default.
W2891563800 creator A5083707303 @default.
W2891563800 creator A5084728355 @default.
W2891563800 creator A5085528632 @default.
W2891563800 creator A5089277890 @default.
W2891563800 creator A5090031059 @default.
W2891563800 creator A5090583754 @default.
W2891563800 creator A5091207573 @default.
W2891563800 date "2018-09-08" @default.
W2891563800 modified "2023-10-01" @default.
W2891563800 title "Chromosome-level reference genome and alternative splicing atlas of moso bamboo (Phyllostachys edulis)" @default.
W2891563800 cites W1967509588 @default.
W2891563800 cites W1969042907 @default.
W2891563800 cites W1970707135 @default.
W2891563800 cites W1972067938 @default.
W2891563800 cites W1976215839 @default.
W2891563800 cites W1977368141 @default.
W2891563800 cites W1979770972 @default.
W2891563800 cites W1989396600 @default.
W2891563800 cites W1990210083 @default.
W2891563800 cites W2011640110 @default.
W2891563800 cites W2011920499 @default.
W2891563800 cites W2026299543 @default.
W2891563800 cites W2027762334 @default.
W2891563800 cites W2047269507 @default.
W2891563800 cites W2063530272 @default.
W2891563800 cites W2075756057 @default.
W2891563800 cites W2097755017 @default.
W2891563800 cites W2099738370 @default.
W2891563800 cites W2102278945 @default.
W2891563800 cites W2105434771 @default.
W2891563800 cites W2106514160 @default.
W2891563800 cites W2108218546 @default.
W2891563800 cites W2110335151 @default.
W2891563800 cites W2111082860 @default.
W2891563800 cites W2111211467 @default.
W2891563800 cites W2111769691 @default.
W2891563800 cites W2114363803 @default.
W2891563800 cites W2116211027 @default.
W2891563800 cites W2119868496 @default.
W2891563800 cites W2125152270 @default.
W2891563800 cites W2131271579 @default.
W2891563800 cites W2133229270 @default.
W2891563800 cites W2134014174 @default.
W2891563800 cites W2141458291 @default.
W2891563800 cites W2151462466 @default.
W2891563800 cites W2155628349 @default.
W2891563800 cites W2155804510 @default.
W2891563800 cites W2159957100 @default.
W2891563800 cites W2160443244 @default.
W2891563800 cites W2163313682 @default.
W2891563800 cites W2163516449 @default.
W2891563800 cites W2164804796 @default.
W2891563800 cites W2165535624 @default.
W2891563800 cites W2166085889 @default.
W2891563800 cites W2167432290 @default.
W2891563800 cites W2171273050 @default.
W2891563800 cites W217372272 @default.
W2891563800 cites W2396077153 @default.
W2891563800 cites W2397868456 @default.
W2891563800 cites W2463593716 @default.
W2891563800 cites W2463761386 @default.
W2891563800 cites W2604808360 @default.
W2891563800 cites W2625203443 @default.
W2891563800 cites W2766195206 @default.
W2891563800 cites W2887458276 @default.
W2891563800 cites W3134740827 @default.
W2891563800 cites W3134820737 @default.
W2891563800 doi "https://doi.org/10.1093/gigascience/giy115" @default.
W2891563800 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6204424" @default.
W2891563800 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30202850" @default.
W2891563800 hasPublicationYear "2018" @default.
W2891563800 type Work @default.
W2891563800 sameAs 2891563800 @default.
W2891563800 citedByCount "75" @default.
W2891563800 countsByYear W28915638002018 @default.
W2891563800 countsByYear W28915638002019 @default.
W2891563800 countsByYear W28915638002020 @default.
W2891563800 countsByYear W28915638002021 @default.
W2891563800 countsByYear W28915638002022 @default.
W2891563800 countsByYear W28915638002023 @default.