The celery genome sequence reveals sequential paleo‐polyploidizations, karyotype evolution and resistance gene reduction in apiales

Song, Xiaoming; Sun, Pengchuan; Yuan, Jiaqing; Gong, Ke; Li, Nan; Meng, Fanbo; Zhang, Zhikang; Li, Xinyu; Hu, Jingjing; Wang, Jinpeng; Yang, Qing; Jiao, Beibei; Nie, Fulei; Liu, Tao; Chen, Wei; Feng, Shuyan; Pei, Qiaoying; Yu, Tong; Kang, Xi; Zhao, Wei; Cui, Chunlin; Yu, Ying; Wu, Tong; Shan, Lanxing; Liu, Man; Qin, Zhiji; Lin, Hao; Varshney, Rajeev K.; Li, Xiuqing; Paterson, Andrew H.; Wang, Xiyin

doi:10.1111/pbi.13499

Cited by 66 publications

(72 citation statements)

References 91 publications

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“…The average contig N50 length was 13,040 bp, while the scaffold N50 length was 23,281 bp. In Apiaceae, the genome sizes of carrot, coriander, and celery were 421.5 Mb, 2118.31 Mb, and 3.33 Gb 33 – 35 , respectively. A total of 42,270 genes were identified in the genome of O. javanica , of which 93.92% of genes were functionally annotated.…”

Section: Discussionmentioning

confidence: 99%

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Integrative genome, transcriptome, microRNA, and degradome analysis of water dropwort (Oenanthe javanica) in response to water stress

et al. 2021

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Water dropwort (Liyang Baiqin, Oenanthe javanica (BI.) DC.) is an aquatic perennial plant from the Apiaceae family with abundant protein, dietary fiber, vitamins, and minerals. It usually grows in wet soils and can even grow in water. Here, whole-genome sequencing of O. javanica via HiSeq 2000 sequencing technology was reported for the first time. The genome size was 1.28 Gb, including 42,270 genes, of which 93.92% could be functionally annotated. An online database of the whole-genome sequences of water dropwort, Water dropwortDB, was established to share the results and facilitate further research on O. javanica (database homepage: http://apiaceae.njau.edu.cn/waterdropwortdb). Water dropwortDB offers whole-genome and transcriptome sequences and a Basic Local Alignment Search Tool. Comparative analysis with other species showed that the evolutionary relationship between O. javanica and Daucus carota was the closest. Twenty-five gene families of O. javanica were found to be expanded, and some genetic factors (such as genes and miRNAs) related to phenotypic and anatomic differentiation in O. javanica under different water conditions were further investigated. Two miRNA and target gene pairs (miR408 and Oja15472, miR171 and Oja47040) were remarkably regulated by water stress. The obtained reference genome of O. javanica provides important information for future work, thus making in-depth genetic breeding and gene editing possible. The present study also provides a foundation for the understanding of the O. javanica response to water stress, including morphological, anatomical, and genetic differentiation.

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Section: Discussionmentioning

confidence: 99%

“…The dynamic evolution process of gene families was constructed using CAFÉ version 3.1 with a probabilistic graphical model 35 . The evolutionary timescale was directly retrieved from http://www.timetree.org 64 and used to construct a primary phylogenetic tree.…”

Section: Methodsmentioning

confidence: 99%

Integrative genome, transcriptome, microRNA, and degradome analysis of water dropwort (Oenanthe javanica) in response to water stress

et al. 2021

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“…= not specified). Of these, four genomes are finely assembled into pseudomolecules (i.e., chromosomes, Apium graveolens [98], Daucus carota [76], Centella asiatica [99] and Coriandrum sativum [100]); whereas the others (Angelica gigas, Oenanthe javanica, Bupleurum falcatum and Foeniculum vulgare) were incomplete and/or assembled at the scaffold level [46,96,97,101]. While the latter were obtained exclusively through short reads sequencing, the first four resulted from a combination of second-and third-generation sequencing platforms, proving to be the most suitable approach for obtaining fully assembled, highly accurate genome sequences.…”

Section: Whole Genome Sequencing Provides Powerful Tools For Marker-assisted Breedingmentioning

confidence: 99%

“…The same species are inflorescence-rich in secondary metabolites, while another RNA-seq analysis was aimed at the identification of genes involved in terpenoid and brassinosteroid accumulation [118]. Coumarins and coumarin-derived compounds (e.g., furanocoumarins) play a repulsive and toxic role against certain insect larvae, and the key genes involved in their biosynthesis have been greatly investigated in Pastinaca sativa [119], Angelica dahurica [120] and Apium graveolens [98]. In particular, Munakata et al identified two different prenyltransferases (PT1 and PT2) responsible for the synthesis of the two furanocoumarin isomers (linear and angular) in P. sativa [119]; whilst Zhao et al and Song et al elucidated the seven enzymes leading to coumarin production in A. dahurica and A. graveolens, respectively [98,120].…”

Section: Rna-seq Analyses Are Starting Points For the Identification Of Genes Responsible For Traits Of Agronomic Interestmentioning

confidence: 99%

“…Coumarins and coumarin-derived compounds (e.g., furanocoumarins) play a repulsive and toxic role against certain insect larvae, and the key genes involved in their biosynthesis have been greatly investigated in Pastinaca sativa [119], Angelica dahurica [120] and Apium graveolens [98]. In particular, Munakata et al identified two different prenyltransferases (PT1 and PT2) responsible for the synthesis of the two furanocoumarin isomers (linear and angular) in P. sativa [119]; whilst Zhao et al and Song et al elucidated the seven enzymes leading to coumarin production in A. dahurica and A. graveolens, respectively [98,120]. Among the triterpene saponins employed in traditional medicine, saikosaponins and asiaticoside are particularly abundant in Bupleurum chinense [121] and Centella asiatica [122,123], and the main enzymes involved in their synthesis are currently under study.…”

Section: Rna-seq Analyses Are Starting Points For the Identification Of Genes Responsible For Traits Of Agronomic Interestmentioning

confidence: 99%

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Impact of Genomic and Transcriptomic Resources on Apiaceae Crop Breeding Strategies

Palumbo

Vannozzi

Barcaccia

2021

IJMS

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The Apiaceae taxon is one of the most important families of flowering plants and includes thousands of species used for food, flavoring, fragrance, medical and industrial purposes. This study had the specific intent of reviewing the main genomics and transcriptomic data available for this family and their use for the constitution of new varieties. This was achieved starting from the description of the main reproductive systems and barriers, with particular reference to cytoplasmic (CMS) and nuclear (NMS) male sterility. We found that CMS and NMS systems have been discovered and successfully exploited for the development of varieties only in Foeniculum vulgare, Daucus carota, Apium graveolens and Pastinaca sativa; whereas, strategies to limit self-pollination have been poorly considered. Since the constitution of new varieties benefits from the synergistic use of marker-assisted breeding in combination with conventional breeding schemes, we also analyzed and discussed the available SNP and SSR marker datasets (20 species) and genomes (8 species). Furthermore, the RNA-seq studies aimed at elucidating key pathways in stress tolerance or biosynthesis of the metabolites of interest were limited and proportional to the economic weight of each species. Finally, by aligning 53 plastid genomes from as many species as possible, we demonstrated the precision offered by the super barcoding approach to reconstruct the phylogenetic relationships of Apiaceae species. Overall, despite the impressive size of this family, we documented an evident lack of molecular data, especially because genomic and transcriptomic resources are circumscribed to a small number of species. We believe that our contribution can help future studies aimed at developing molecular tools for boosting breeding programs in crop plants of the Apiaceae family.

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Reference Genome of Saffron “The Golden Condiment”

Ambardar

Vakhlu

Sowdhamini

2022

Compendium of Plant Genomes

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The celery genome sequence reveals sequential paleo‐polyploidizations, karyotype evolution and resistance gene reduction in apiales

Cited by 66 publications

References 91 publications

Integrative genome, transcriptome, microRNA, and degradome analysis of water dropwort (Oenanthe javanica) in response to water stress

Integrative genome, transcriptome, microRNA, and degradome analysis of water dropwort (Oenanthe javanica) in response to water stress

Impact of Genomic and Transcriptomic Resources on Apiaceae Crop Breeding Strategies

Reference Genome of Saffron “The Golden Condiment”

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