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Literature DB >> 30379572

Whole-Genome Alignment and Comparative Annotation.

Joel Armstrong¹, Ian T Fiddes^1,2, Mark Diekhans¹, Benedict Paten¹.

Abstract

Rapidly improving sequencing technology coupled with computational developments in sequence assembly are making reference-quality genome assembly economical. Hundreds of vertebrate genome assemblies are now publicly available, and projects are being proposed to sequence thousands of additional species in the next few years. Such dense sampling of the tree of life should give an unprecedented new understanding of evolution and allow a detailed determination of the events that led to the wealth of biodiversity around us. To gain this knowledge, these new genomes must be compared through genome alignment (at the sequence level) and comparative annotation (at the gene level). However, different alignment and annotation methods have different characteristics; before starting a comparative genomics analysis, it is important to understand the nature of, and biases and limitations inherent in, the chosen methods. This review is intended to act as a technical but high-level overview of the field that should provide this understanding. We briefly survey the state of the genome alignment and comparative annotation fields and potential future directions for these fields in a new, large-scale era of comparative genomics.

Entities: Chemical Disease Gene Species

Keywords: comparative genomics; genome alignment; genome annotation

Mesh：

Year: 2018 PMID： 30379572 PMCID： PMC6450745 DOI： 10.1146/annurev-animal-020518-115005

Source DB: PubMed Journal: Annu Rev Anim Biosci ISSN： 2165-8102 Impact factor: 8.923

112 in total

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20 in total

1. Sequence diversity analyses of an improved rhesus macaque genome enhance its biomedical utility.

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Journal: Science Date: 2020-12-18 Impact factor: 47.728

Review 2. Assessing the evolutionary persistence of ecological relationships: A review and preview.

Authors: Luke B B Hecht; Peter C Thompson; Benjamin M Rosenthal
Journal: Infect Genet Evol Date: 2020-07-01 Impact factor: 3.342

3. Scalable Pairwise Whole-Genome Homology Mapping of Long Genomes with BubbZ.

Authors: Ilia Minkin; Paul Medvedev
Journal: iScience Date: 2020-06-03

4. Twelve quick steps for genome assembly and annotation in the classroom.

Authors: Hyungtaek Jung; Tomer Ventura; J Sook Chung; Woo-Jin Kim; Bo-Hye Nam; Hee Jeong Kong; Young-Ok Kim; Min-Seung Jeon; Seong-Il Eyun
Journal: PLoS Comput Biol Date: 2020-11-12 Impact factor: 4.475

Review 5. Systems biology approaches integrated with artificial intelligence for optimized metabolic engineering.

Authors: Mohamed Helmy; Derek Smith; Kumar Selvarajoo
Journal: Metab Eng Commun Date: 2020-10-09

6. Progressive Cactus is a multiple-genome aligner for the thousand-genome era.

Authors: Joel Armstrong; Glenn Hickey; Mark Diekhans; Ian T Fiddes; Adam M Novak; Alden Deran; Qi Fang; Duo Xie; Shaohong Feng; Josefin Stiller; Diane Genereux; Jeremy Johnson; Voichita Dana Marinescu; Jessica Alföldi; Robert S Harris; Kerstin Lindblad-Toh; David Haussler; Elinor Karlsson; Erich D Jarvis; Guojie Zhang; Benedict Paten
Journal: Nature Date: 2020-11-11 Impact factor: 49.962

Review 7. Population Genomic Approaches for Weed Science.

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8. A genome alignment of 120 mammals highlights ultraconserved element variability and placenta-associated enhancers.

Authors: Nikolai Hecker; Michael Hiller
Journal: Gigascience Date: 2020-01-01 Impact factor: 6.524

9. Dense sampling of bird diversity increases power of comparative genomics.

Authors: Shaohong Feng; Josefin Stiller; Yuan Deng; Joel Armstrong; Qi Fang; Andrew Hart Reeve; Duo Xie; Guangji Chen; Chunxue Guo; Brant C Faircloth; Bent Petersen; Zongji Wang; Qi Zhou; Mark Diekhans; Wanjun Chen; Sergio Andreu-Sánchez; Ashot Margaryan; Jason Travis Howard; Carole Parent; George Pacheco; Mikkel-Holger S Sinding; Lara Puetz; Emily Cavill; Ângela M Ribeiro; Leopold Eckhart; Jon Fjeldså; Peter A Hosner; Robb T Brumfield; Les Christidis; Mads F Bertelsen; Thomas Sicheritz-Ponten; Dieter Thomas Tietze; Bruce C Robertson; Gang Song; Gerald Borgia; Santiago Claramunt; Irby J Lovette; Saul J Cowen; Peter Njoroge; John Philip Dumbacher; Oliver A Ryder; Jérôme Fuchs; Michael Bunce; David W Burt; Joel Cracraft; Guanliang Meng; Shannon J Hackett; Peter G Ryan; Knud Andreas Jønsson; Ian G Jamieson; Rute R da Fonseca; Edward L Braun; Peter Houde; Siavash Mirarab; Alexander Suh; Bengt Hansson; Suvi Ponnikas; Hanna Sigeman; Martin Stervander; Paul B Frandsen; Henriette van der Zwan; Rencia van der Sluis; Carina Visser; Christopher N Balakrishnan; Andrew G Clark; John W Fitzpatrick; Reed Bowman; Nancy Chen; Alison Cloutier; Timothy B Sackton; Scott V Edwards; Dustin J Foote; Subir B Shakya; Frederick H Sheldon; Alain Vignal; André E R Soares; Beth Shapiro; Jacob González-Solís; Joan Ferrer-Obiol; Julio Rozas; Marta Riutort; Anna Tigano; Vicki Friesen; Love Dalén; Araxi O Urrutia; Tamás Székely; Yang Liu; Michael G Campana; André Corvelo; Robert C Fleischer; Kim M Rutherford; Neil J Gemmell; Nicolas Dussex; Henrik Mouritsen; Nadine Thiele; Kira Delmore; Miriam Liedvogel; Andre Franke; Marc P Hoeppner; Oliver Krone; Adam M Fudickar; Borja Milá; Ellen D Ketterson; Andrew Eric Fidler; Guillermo Friis; Ángela M Parody-Merino; Phil F Battley; Murray P Cox; Nicholas Costa Barroso Lima; Francisco Prosdocimi; Thomas Lee Parchman; Barney A Schlinger; Bette A Loiselle; John G Blake; Haw Chuan Lim; Lainy B Day; Matthew J Fuxjager; Maude W Baldwin; Michael J Braun; Morgan Wirthlin; Rebecca B Dikow; T Brandt Ryder; Glauco Camenisch; Lukas F Keller; Jeffrey M DaCosta; Mark E Hauber; Matthew I M Louder; Christopher C Witt; Jimmy A McGuire; Joann Mudge; Libby C Megna; Matthew D Carling; Biao Wang; Scott A Taylor; Glaucia Del-Rio; Alexandre Aleixo; Ana Tereza Ribeiro Vasconcelos; Claudio V Mello; Jason T Weir; David Haussler; Qiye Li; Huanming Yang; Jian Wang; Fumin Lei; Carsten Rahbek; M Thomas P Gilbert; Gary R Graves; Erich D Jarvis; Benedict Paten; Guojie Zhang
Journal: Nature Date: 2020-11-11 Impact factor: 49.962

10. Protein-Coding Genes of Helicobacter pylori Predominantly Present Purifying Selection though Many Membrane Proteins Suffer from Selection Pressure: A Proposal to Analyze Bacterial Pangenomes.

Authors: Alejandro Rubio; Antonio J Pérez-Pulido
Journal: Genes (Basel) Date: 2021-03-06 Impact factor: 4.096