SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4384155263> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W4384155263 abstract "ABSTRACT Syzygium cumini, also known as jambolan or jamun, is an evergreen tree widely known for its medicinal properties, fruits, and ornamental value. To understand the genomic and evolutionary basis of its medicinal properties, we sequenced S. cumini genome, which is the largest genome sequenced for the first time from the world’s largest tree genus Syzygium using Oxford Nanopore and 10x Genomics sequencing technologies. The tetraploid and highly heterozygous draft genome of S. cumini had a total size of 709.9 Mbp with 61,195 coding genes. The phylogenetic position of S. cumini was established using a comprehensive genome-wide analysis including species from 18 Eudicot plant orders. The existence of neopolyploidy in S. cumini was evident from the higher number of coding genes and expanded gene families compared to the other two sequenced species from this genus. Comparative evolutionary analyses showed the adaptive evolution of genes involved in the phenylpropanoid-flavonoid (PF) biosynthesis pathway and other secondary metabolites biosynthesis such as terpenoid and alkaloid in S. cumini, along with genes involved in stress tolerance mechanisms, which was also supported by leaf transcriptome data generated in this study. The adaptive evolution of secondary metabolism pathways is associated with the wide range of pharmacological properties, specifically the anti-diabetic property, of this species conferred by the bioactive compounds that act as nutraceutical agents in modern medicine." @default.
W4384155263 created "2023-07-14" @default.
W4384155263 creator A5032809501 @default.
W4384155263 creator A5036768701 @default.
W4384155263 creator A5041416415 @default.
W4384155263 creator A5061917898 @default.
W4384155263 date "2023-07-13" @default.
W4384155263 modified "2023-09-25" @default.
W4384155263 title "Genome sequencing of Syzygium cumini (Jamun) reveals adaptive evolution in secondary metabolism pathways associated with its medicinal properties" @default.
W4384155263 cites W1494284268 @default.
W4384155263 cites W1957309380 @default.
W4384155263 cites W1982855075 @default.
W4384155263 cites W1986159624 @default.
W4384155263 cites W1996700726 @default.
W4384155263 cites W2011657487 @default.
W4384155263 cites W2020134788 @default.
W4384155263 cites W2048309867 @default.
W4384155263 cites W2051443629 @default.
W4384155263 cites W2070342831 @default.
W4384155263 cites W2070571588 @default.
W4384155263 cites W2078676120 @default.
W4384155263 cites W2089861443 @default.
W4384155263 cites W2096128575 @default.
W4384155263 cites W2102278945 @default.
W4384155263 cites W2110335151 @default.
W4384155263 cites W2118988862 @default.
W4384155263 cites W2122029855 @default.
W4384155263 cites W2129240922 @default.
W4384155263 cites W2131271579 @default.
W4384155263 cites W2133579817 @default.
W4384155263 cites W2135621733 @default.
W4384155263 cites W2141052558 @default.
W4384155263 cites W2143238378 @default.
W4384155263 cites W2154533018 @default.
W4384155263 cites W2155628349 @default.
W4384155263 cites W2160378127 @default.
W4384155263 cites W2162901601 @default.
W4384155263 cites W2164028230 @default.
W4384155263 cites W2165418074 @default.
W4384155263 cites W2167757586 @default.
W4384155263 cites W2323326409 @default.
W4384155263 cites W2474525766 @default.
W4384155263 cites W2527264988 @default.
W4384155263 cites W2529123142 @default.
W4384155263 cites W2598785105 @default.
W4384155263 cites W2609518076 @default.
W4384155263 cites W2613881451 @default.
W4384155263 cites W2622707183 @default.
W4384155263 cites W2767132092 @default.
W4384155263 cites W2789843538 @default.
W4384155263 cites W2790055571 @default.
W4384155263 cites W2793065817 @default.
W4384155263 cites W2801869501 @default.
W4384155263 cites W2885582175 @default.
W4384155263 cites W2889140275 @default.
W4384155263 cites W2891533746 @default.
W4384155263 cites W2906461738 @default.
W4384155263 cites W2906693110 @default.
W4384155263 cites W2925596324 @default.
W4384155263 cites W2945386266 @default.
W4384155263 cites W2946173685 @default.
W4384155263 cites W2952438530 @default.
W4384155263 cites W2953241082 @default.
W4384155263 cites W2953289982 @default.
W4384155263 cites W2953390219 @default.
W4384155263 cites W2955063954 @default.
W4384155263 cites W2965574859 @default.
W4384155263 cites W2969898700 @default.
W4384155263 cites W2990895847 @default.
W4384155263 cites W3004295003 @default.
W4384155263 cites W3007172120 @default.
W4384155263 cites W3010855799 @default.
W4384155263 cites W3020800681 @default.
W4384155263 cites W3031903781 @default.
W4384155263 cites W3046337776 @default.
W4384155263 cites W3101879686 @default.
W4384155263 cites W3103762826 @default.
W4384155263 cites W3107527779 @default.
W4384155263 cites W3117143309 @default.
W4384155263 cites W3126775357 @default.
W4384155263 cites W3137236109 @default.
W4384155263 cites W3188096722 @default.
W4384155263 cites W3195010157 @default.
W4384155263 cites W4210400672 @default.
W4384155263 cites W4211254291 @default.
W4384155263 cites W4213149192 @default.
W4384155263 cites W4220887281 @default.
W4384155263 cites W4249526157 @default.
W4384155263 cites W4283014100 @default.
W4384155263 cites W4283740158 @default.
W4384155263 cites W4295123479 @default.
W4384155263 cites W4306770691 @default.
W4384155263 cites W4308926474 @default.
W4384155263 cites W4323036792 @default.
W4384155263 cites W4323315545 @default.
W4384155263 doi "https://doi.org/10.1101/2023.07.12.548672" @default.
W4384155263 hasPublicationYear "2023" @default.
W4384155263 type Work @default.
W4384155263 citedByCount "0" @default.
W4384155263 crossrefType "posted-content" @default.