Differential gene retention in plastids of common recent origin.
about
Evolving a photosynthetic organelleCyanophora paradoxa Genome Elucidates Origin of Photosynthesis in Algae and PlantsGenomes of Stigonematalean cyanobacteria (subsection V) and the evolution of oxygenic photosynthesis from prokaryotes to plastidsNothing in Evolution Makes Sense Except in the Light of Genomics: Read-Write Genome Evolution as an Active Biological ProcessParallel evolution of highly conserved plastid genome architecture in red seaweeds and seed plantsThe Cosmic Zoo: The (Near) Inevitability of the Evolution of Complex, Macroscopic LifeOrigin and evolution of plastids and photosynthesis in eukaryotesPossible import routes of proteins into the cyanobacterial endosymbionts/plastids of Paulinella chromatophoraSecond genesis of a plastid organellePlastid origin and evolution: new models provide insights into old problemsCompositional biases among synonymous substitutions cause conflict between gene and protein trees for plastid origins.Genome fluctuations in cyanobacteria reflect evolutionary, developmental and adaptive traits.Ecological and evolutionary genomics of marine photosynthetic organisms.Endosymbiont or host: who drove mitochondrial and plastid evolution?Trafficking of protein into the recently established photosynthetic organelles of Paulinella chromatophora.Natural selection drove metabolic specialization of the chromatophore in Paulinella chromatophoraHow Really Ancient Is Paulinella Chromatophora?Gene transfers from diverse bacteria compensate for reductive genome evolution in the chromatophore of Paulinella chromatophora.Endosymbiotic gene transfer in tertiary plastid-containing dinoflagellates.Decoding algal genomes: tracing back the history of photosynthetic life on Earth.Early photosynthetic eukaryotes inhabited low-salinity habitats.Protein import into the photosynthetic organelles of Paulinella chromatophora and its implications for primary plastid endosymbiosis.Endosymbiotic and horizontal gene transfer in microbial eukaryotes: Impacts on cell evolution and the tree of life.Plastid-localized amino acid biosynthetic pathways of Plantae are predominantly composed of non-cyanobacterial enzymes.Genomic divergence within non-photosynthetic cyanobacterial endosymbionts in rhopalodiacean diatoms.Ancient gene paralogy may mislead inference of plastid phylogeny.Single cell genome analysis supports a link between phagotrophy and primary plastid endosymbiosis.RNase P RNA from the recently evolved plastid of Paulinella and from algaeLarge-scale phylogenomic analyses indicate a deep origin of primary plastids within cyanobacteria.Living Organisms Author Their Read-Write Genomes in Evolution.Hypothesis: Gene-rich plastid genomes in red algae may be an outcome of nuclear genome reduction.Evolution of bacterial recombinase A (recA) in eukaryotes explained by addition of genomic data of key microbial lineages.Cyanobacteria: the bright and dark sides of a charming groupThe basic genetic toolkit to move in with your photosynthetic partner
P2860
Q21245380-702E83C6-885C-414F-9792-BE42E632426EQ22065601-258BA7EA-EF7A-4F31-93B8-395ED0A8C9BBQ24606370-D7EEED02-C8A3-4E77-92FE-F79C47B55879Q26315280-EDC040F1-BF46-4BAF-9170-594A3EC1AFF4Q28596364-F723DAE2-167F-4148-8BFA-61D876CABBC9Q28598278-70AFC2C3-B7C3-4638-A8CF-57925A6107FCQ28660547-FC823AC3-E7A6-46D5-863C-04DC625A2FA9Q28730466-AB3EF6D2-BE37-4682-9FF5-5CEAA93857E0Q28730600-49EC4C49-61B6-4D34-9630-1A6D4368C511Q28740377-A4008499-F78F-4F37-A446-E9C8A75A5D34Q33801888-9D897F05-35F8-468C-93CA-909FAA38B6BAQ33947260-D86A9A04-E214-4C1A-B5B0-6AB5C1ECC334Q34417963-8E4B1680-9C59-46EB-81A5-CD70A20A0F3BQ34633728-BCA7DA84-4CCB-452C-83AF-3295C67140E6Q35887337-20657DA5-4424-462B-AD01-84A5B9DA3119Q36347283-25999BF1-B143-441F-AB7A-19A6AEFC0212Q36374426-4AED6B6B-5628-4E6A-9618-D5262A24CACFQ37379902-9D604E9B-A480-4C5F-970F-0231AA5B9445Q37545184-C9E51002-7A84-45CF-ABCD-3BC61995A71DQ37858619-1783F6F5-468F-4FDB-8526-FFADE1779BB8Q38625027-C7A5134A-4CC5-4241-858B-946A0FFA6467Q41550311-66C94D85-0E5F-4E34-8EBE-F37EC69540C8Q41947386-C211DCE5-D680-4E1A-83AE-2EB033660BB1Q42038822-75BEED9A-30B4-4ED0-898D-C076A4C0415DQ42376120-04BDE5CC-38C5-43CC-93E0-FF4C9DD3C72DQ42506831-4DB85C7C-A0DD-4413-8F60-D7DBC59309DAQ42552538-4F384D8F-85AE-4325-A488-E4DD11EBE4BDQ42583926-35BB12EE-B012-444A-B6C0-8A6AFF22D672Q43031591-0E8A3D39-8689-471F-A639-6204DA910E3EQ46246927-684490DB-ED28-46E1-82E1-65A906C496B6Q47241424-B66ECAC3-9EA0-4326-B328-945EB20AF7BCQ51426214-ECA57E04-DB68-4EB8-BB22-35C159BC2AA3Q57059964-15CF2C6E-E24B-4A59-B53A-F0BEF0ED6A55Q57898494-F547547D-A991-45B5-93A0-004FEF013C28
P2860
Differential gene retention in plastids of common recent origin.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Differential gene retention in plastids of common recent origin.
@ast
Differential gene retention in plastids of common recent origin.
@en
Differential gene retention in plastids of common recent origin.
@nl
type
label
Differential gene retention in plastids of common recent origin.
@ast
Differential gene retention in plastids of common recent origin.
@en
Differential gene retention in plastids of common recent origin.
@nl
prefLabel
Differential gene retention in plastids of common recent origin.
@ast
Differential gene retention in plastids of common recent origin.
@en
Differential gene retention in plastids of common recent origin.
@nl
P2093
P2860
P50
P356
P1476
Differential gene retention in plastids of common recent origin
@en
P2093
Adrian Reyes-Prieto
Debashish Bhattacharya
Hwan Su Yoon
Ken-ichiro Ishida
Robert A Andersen
Sung Min Boo
P2860
P304
P356
10.1093/MOLBEV/MSQ032
P577
2010-02-01T00:00:00Z