Huai-Jun Xue1,2, Yi-Wei Niu3,4, Kari A Segraves5,6, Rui-E Nie7, Ya-Jing Hao3,4, Li-Li Zhang3,4, Xin-Chao Cheng8, Xue-Wen Zhang8, Wen-Zhu Li7, Run-Sheng Chen9, Xing-Ke Yang10. 1. Institute of Zoology, Chinese Academy of Sciences, Beijing, 100101, China. xue@ioz.ac.cn. 2. College of Life Sciences, Nankai University, Tianjin, 300071, China. xue@ioz.ac.cn. 3. Institute of Biophysics, Chinese Academy of Sciences, Beijing, 100101, China. 4. University of Chinese Academy of Sciences, Beijing, 100049, China. 5. Department of Biology, Syracuse University, 107 College Place, Syracuse, NY, 13244, USA. 6. Archbold Biological Station, 123 Main Drive, Venus, FL, 33960, USA. 7. Institute of Zoology, Chinese Academy of Sciences, Beijing, 100101, China. 8. Biomarker Technologies Corporation, Floor 8, Shunjie Building, 12 Fuqian Road, Nanfaxin Town, Shunyi District, Beijing, 101300, China. 9. Institute of Biophysics, Chinese Academy of Sciences, Beijing, 100101, China. chenrs@ibp.ac.cn. 10. Institute of Zoology, Chinese Academy of Sciences, Beijing, 100101, China. yangxk@ioz.ac.cn.
Abstract
BACKGROUND: Altica (Coleoptera: Chrysomelidae) is a highly diverse and taxonomically challenging flea beetle genus that has been used to address questions related to host plant specialization, reproductive isolation, and ecological speciation. To further evolutionary studies in this interesting group, here we present a draft genome of a representative specialist, Altica viridicyanea, the first Alticinae genome reported thus far. RESULTS: The genome is 864.8 Mb and consists of 4490 scaffolds with a N50 size of 557 kb, which covered 98.6% complete and 0.4% partial insect Benchmarking Universal Single-Copy Orthologs. Repetitive sequences accounted for 62.9% of the assembly, and a total of 17,730 protein-coding gene models and 2462 non-coding RNA models were predicted. To provide insight into host plant specialization of this monophagous species, we examined the key gene families involved in chemosensation, detoxification of plant secondary chemistry, and plant cell wall-degradation. CONCLUSIONS: The genome assembled in this work provides an important resource for further studies on host plant adaptation and functionally affiliated genes. Moreover, this work also opens the way for comparative genomics studies among closely related Altica species, which may provide insight into the molecular evolutionary processes that occur during ecological speciation.
BACKGROUND: Altica (Coleoptera: Chrysomelidae) is a highly diverse and taxonomically challenging flea beetle genus that has been used to address questions related to host plant specialization, reproductive isolation, and ecological speciation. To further evolutionary studies in this interesting group, here we present a draft genome of a representative specialist, Altica viridicyanea, the first Alticinae genome reported thus far. RESULTS: The genome is 864.8 Mb and consists of 4490 scaffolds with a N50 size of 557 kb, which covered 98.6% complete and 0.4% partial insect Benchmarking Universal Single-Copy Orthologs. Repetitive sequences accounted for 62.9% of the assembly, and a total of 17,730 protein-coding gene models and 2462 non-coding RNA models were predicted. To provide insight into host plant specialization of this monophagous species, we examined the key gene families involved in chemosensation, detoxification of plant secondary chemistry, and plant cell wall-degradation. CONCLUSIONS: The genome assembled in this work provides an important resource for further studies on host plant adaptation and functionally affiliated genes. Moreover, this work also opens the way for comparative genomics studies among closely related Altica species, which may provide insight into the molecular evolutionary processes that occur during ecological speciation.
Authors: Thomas Wicker; François Sabot; Aurélie Hua-Van; Jeffrey L Bennetzen; Pierre Capy; Boulos Chalhoub; Andrew Flavell; Philippe Leroy; Michele Morgante; Olivier Panaud; Etienne Paux; Phillip SanMiguel; Alan H Schulman Journal: Nat Rev Genet Date: 2007-12 Impact factor: 53.242
Authors: Ahmed Sayadi; Alvaro Martinez Barrio; Elina Immonen; Jacques Dainat; David Berger; Christian Tellgren-Roth; Björn Nystedt; Göran Arnqvist Journal: Nat Ecol Evol Date: 2019-11-18 Impact factor: 15.460
Authors: Brenda Oppert; Anna Muszewska; Kamil Steczkiewicz; Eva Šatović-Vukšić; Miroslav Plohl; Jeffrey A Fabrick; Konstantin S Vinokurov; Igor Koloniuk; J Spencer Johnston; Timothy P L Smith; Raul Narciso C Guedes; Walter R Terra; Clélia Ferreira; Renata O Dias; Konstantin A Chaply; Elena N Elpidina; Valeriia F Tereshchenkova; Robert F Mitchell; Audra J Jenson; Rachel McKay; Tisheng Shan; Xiaolong Cao; Zelong Miao; Chao Xiong; Haobo Jiang; William R Morrison; Sergey Koren; David Schlipalius; Marcé D Lorenzen; Raman Bansal; Yu-Hui Wang; Lindsey Perkin; Monica Poelchau; Kenlee Friesen; Morgan L Olmstead; Erin Scully; James F Campbell Journal: Genes (Basel) Date: 2022-02-28 Impact factor: 4.141