SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2528146585> ?p ?o ?g. }

Showing items 1 to 100 of ±189 with 100 items per page.

W2528146585 endingPage "61" @default.
W2528146585 startingPage "51" @default.
W2528146585 abstract "Bread wheat (Triticum aestivum, AABBDD) is an allohexaploid species derived from two rounds of interspecific hybridizations. A high-quality genome sequence assembly of diploid Aegilops tauschii, the donor of the wheat D genome, will provide a useful platform to study polyploid wheat evolution. A combined approach of BAC pooling and next-generation sequencing technology was employed to sequence the minimum tiling path (MTP) of 3176 BAC clones from the short arm of Ae. tauschii chromosome 3 (At3DS). The final assembly of 135 super-scaffolds with an N50 of 4.2 Mb was used to build a 247-Mb pseudomolecule with a total of 2222 predicted protein-coding genes. Compared with the orthologous regions of rice, Brachypodium, and sorghum, At3DS contains 38.67% more genes. In comparison to At3DS, the short arm sequence of wheat chromosome 3B (Ta3BS) is 95-Mb large in size, which is primarily due to the expansion of the non-centromeric region, suggesting that transposable element (TE) bursts in Ta3B likely occurred there. Also, the size increase is accompanied by a proportional increase in gene number in Ta3BS. We found that in the sequence of short arm of wheat chromosome 3D (Ta3DS), there was only less than 0.27% gene loss compared to At3DS. Our study reveals divergent evolution of grass genomes and provides new insights into sequence changes in the polyploid wheat genome." @default.
W2528146585 created "2016-10-14" @default.
W2528146585 creator A5006247366 @default.
W2528146585 creator A5017409723 @default.
W2528146585 creator A5021411613 @default.
W2528146585 creator A5023214008 @default.
W2528146585 creator A5026768583 @default.
W2528146585 creator A5029485402 @default.
W2528146585 creator A5029667848 @default.
W2528146585 creator A5029670569 @default.
W2528146585 creator A5035117733 @default.
W2528146585 creator A5037621472 @default.
W2528146585 creator A5038827581 @default.
W2528146585 creator A5041324566 @default.
W2528146585 creator A5041394593 @default.
W2528146585 creator A5042774537 @default.
W2528146585 creator A5047186376 @default.
W2528146585 creator A5050528031 @default.
W2528146585 creator A5054727202 @default.
W2528146585 creator A5059463745 @default.
W2528146585 creator A5060102553 @default.
W2528146585 creator A5063766942 @default.
W2528146585 creator A5064079305 @default.
W2528146585 creator A5065774158 @default.
W2528146585 creator A5066819567 @default.
W2528146585 creator A5076144447 @default.
W2528146585 creator A5088912755 @default.
W2528146585 creator A5091354952 @default.
W2528146585 date "2017-01-01" @default.
W2528146585 modified "2023-10-15" @default.
W2528146585 title "Sequencing and comparative analyses of Aegilops tauschii chromosome arm 3DS reveal rapid evolution of Triticeae genomes" @default.
W2528146585 cites W1808444930 @default.
W2528146585 cites W1959859851 @default.
W2528146585 cites W1965435190 @default.
W2528146585 cites W1972171731 @default.
W2528146585 cites W1972668757 @default.
W2528146585 cites W1976046867 @default.
W2528146585 cites W1988259787 @default.
W2528146585 cites W1990813498 @default.
W2528146585 cites W1998808728 @default.
W2528146585 cites W2000708574 @default.
W2528146585 cites W2013063066 @default.
W2528146585 cites W2013892862 @default.
W2528146585 cites W2020134788 @default.
W2528146585 cites W2022685385 @default.
W2528146585 cites W2025251984 @default.
W2528146585 cites W2031932327 @default.
W2528146585 cites W2043481864 @default.
W2528146585 cites W2043973828 @default.
W2528146585 cites W2046181098 @default.
W2528146585 cites W2048001630 @default.
W2528146585 cites W2049347753 @default.
W2528146585 cites W2057144520 @default.
W2528146585 cites W2065589216 @default.
W2528146585 cites W2078101442 @default.
W2528146585 cites W2084133861 @default.
W2528146585 cites W2086573220 @default.
W2528146585 cites W2093141907 @default.
W2528146585 cites W2093776734 @default.
W2528146585 cites W2094851416 @default.
W2528146585 cites W2095780001 @default.
W2528146585 cites W2096441981 @default.
W2528146585 cites W2101875628 @default.
W2528146585 cites W2108529208 @default.
W2528146585 cites W2121668668 @default.
W2528146585 cites W2128114769 @default.
W2528146585 cites W2136248683 @default.
W2528146585 cites W2141834369 @default.
W2528146585 cites W2142678478 @default.
W2528146585 cites W2142792102 @default.
W2528146585 cites W2145792266 @default.
W2528146585 cites W2146663795 @default.
W2528146585 cites W2153218781 @default.
W2528146585 cites W2154715173 @default.
W2528146585 cites W2155670229 @default.
W2528146585 cites W2158804744 @default.
W2528146585 cites W2159556398 @default.
W2528146585 cites W2160625611 @default.
W2528146585 cites W2163346964 @default.
W2528146585 cites W2163605342 @default.
W2528146585 cites W2164107696 @default.
W2528146585 cites W2165541882 @default.
W2528146585 cites W2175948239 @default.
W2528146585 cites W2260583560 @default.
W2528146585 cites W2432603755 @default.
W2528146585 cites W3150876348 @default.
W2528146585 cites W4235826616 @default.
W2528146585 cites W4237812901 @default.
W2528146585 cites W4247053599 @default.
W2528146585 cites W4362068861 @default.
W2528146585 doi "https://doi.org/10.1016/j.jgg.2016.09.005" @default.
W2528146585 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27765484" @default.
W2528146585 hasPublicationYear "2017" @default.
W2528146585 type Work @default.
W2528146585 sameAs 2528146585 @default.
W2528146585 citedByCount "10" @default.
W2528146585 countsByYear W25281465852017 @default.
W2528146585 countsByYear W25281465852018 @default.