Worden_2009_Science_324_268

Reference

Title : Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas - Worden_2009_Science_324_268
Author(s) : Worden AZ , Lee JH , Mock T , Rouze P , Simmons MP , Aerts AL , Allen AE , Cuvelier ML , Derelle E , Everett MV , Foulon E , Grimwood J , Gundlach H , Henrissat B , Napoli C , McDonald SM , Parker MS , Rombauts S , Salamov A , von Dassow P , Badger JH , Coutinho PM , Demir E , Dubchak I , Gentemann C , Eikrem W , Gready JE , John U , Lanier W , Lindquist EA , Lucas S , Mayer KF , Moreau H , Not F , Otillar R , Panaud O , Pangilinan J , Paulsen I , Piegu B , Poliakov A , Robbens S , Schmutz J , Toulza E , Wyss T , Zelensky A , Zhou K , Armbrust EV , Bhattacharya D , Goodenough UW , Van de Peer Y , Grigoriev IV
Ref : Science , 324 :268 , 2009
Abstract :

Picoeukaryotes are a taxonomically diverse group of organisms less than 2 micrometers in diameter. Photosynthetic marine picoeukaryotes in the genus Micromonas thrive in ecosystems ranging from tropical to polar and could serve as sentinel organisms for biogeochemical fluxes of modern oceans during climate change. These broadly distributed primary producers belong to an anciently diverged sister clade to land plants. Although Micromonas isolates have high 18S ribosomal RNA gene identity, we found that genomes from two isolates shared only 90% of their predicted genes. Their independent evolutionary paths were emphasized by distinct riboswitch arrangements as well as the discovery of intronic repeat elements in one isolate, and in metagenomic data, but not in other genomes. Divergence appears to have been facilitated by selection and acquisition processes that actively shape the repertoire of genes that are mutually exclusive between the two isolates differently than the core genes. Analyses of the Micromonas genomes offer valuable insights into ecological differentiation and the dynamic nature of early plant evolution.

PubMedSearch : Worden_2009_Science_324_268
PubMedID: 19359590
Gene_locus related to this paper: 9chlo-c1e363 , 9chlo-c1ehp8 , 9chlo-c1fhv2 , 9chlo-c1mis3 , 9chlo-c1na62 , micpc-c1mh04 , micpc-c1mhj0 , micpc-c1mie7 , micpc-c1mj20 , micpc-c1mjh0 , micpc-c1mny7 , micpc-c1mpb2 , micpc-c1mrl2 , micpc-c1msr1 , micpc-c1mvk4 , micpc-c1mvx4 , micpc-c1n5d2 , micpc-c1n6i2 , micpc-c1n842 , micsr-c1dzu1 , micsr-c1e0v8 , micsr-c1e2u5 , micsr-c1e4q6 , micsr-c1e6z5 , micsr-c1e046 , micsr-c1e286 , micsr-c1eap0 , micsr-c1ec00 , micsr-c1edy4 , micsr-c1efl2 , micsr-c1eh15 , micsr-c1ei44 , micsr-c1eii9 , micsr-c1eiz1 , micsr-c1fft1 , micsr-c1fi89 , micsr-c1fj57 , micsr-c1e9f6 , micsr-c1e9u2 , micsr-c1fgg8 , micpc-c1mie3 , micpc-c1ms20 , micpc-c1n640 , miccc-c1e278 , micpc-c1mpa6

Related information

Gene_locus 9chlo-c1e363    9chlo-c1ehp8    9chlo-c1fhv2    9chlo-c1mis3    9chlo-c1na62    micpc-c1mh04    micpc-c1mhj0    micpc-c1mie7    micpc-c1mj20    micpc-c1mjh0    micpc-c1mny7    micpc-c1mpb2    micpc-c1mrl2    micpc-c1msr1    micpc-c1mvk4    micpc-c1mvx4    micpc-c1n5d2    micpc-c1n6i2    micpc-c1n842    micsr-c1dzu1    micsr-c1e0v8    micsr-c1e2u5    micsr-c1e4q6    micsr-c1e6z5    micsr-c1e046    micsr-c1e286    micsr-c1eap0    micsr-c1ec00    micsr-c1edy4    micsr-c1efl2    micsr-c1eh15    micsr-c1ei44    micsr-c1eii9    micsr-c1eiz1    micsr-c1fft1    micsr-c1fi89    micsr-c1fj57    micsr-c1e9f6    micsr-c1e9u2    micsr-c1fgg8    micpc-c1mie3    micpc-c1ms20    micpc-c1n640    miccc-c1e278    micpc-c1mpa6
Gene_locus_frgt 9chlo-c1n364    micpc-c1msy5    micpc-c1mtp5    micpc-c1mv96    micpc-c1mxn6    micsr-c1dzu0    micsr-c1e416

Citations formats

Worden AZ, Lee JH, Mock T, Rouze P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV, Foulon E, Grimwood J, Gundlach H, Henrissat B, Napoli C, McDonald SM, Parker MS, Rombauts S, Salamov A, von Dassow P, Badger JH, Coutinho PM, Demir E, Dubchak I, Gentemann C, Eikrem W, Gready JE, John U, Lanier W, Lindquist EA, Lucas S, Mayer KF, Moreau H, Not F, Otillar R, Panaud O, Pangilinan J, Paulsen I, Piegu B, Poliakov A, Robbens S, Schmutz J, Toulza E, Wyss T, Zelensky A, Zhou K, Armbrust EV, Bhattacharya D, Goodenough UW, Van de Peer Y, Grigoriev IV (2009)
Green evolution and dynamic adaptations revealed by genomes of the marine picoeukaryotes Micromonas
Science 324 :268

Worden AZ, Lee JH, Mock T, Rouze P, Simmons MP, Aerts AL, Allen AE, Cuvelier ML, Derelle E, Everett MV, Foulon E, Grimwood J, Gundlach H, Henrissat B, Napoli C, McDonald SM, Parker MS, Rombauts S, Salamov A, von Dassow P, Badger JH, Coutinho PM, Demir E, Dubchak I, Gentemann C, Eikrem W, Gready JE, John U, Lanier W, Lindquist EA, Lucas S, Mayer KF, Moreau H, Not F, Otillar R, Panaud O, Pangilinan J, Paulsen I, Piegu B, Poliakov A, Robbens S, Schmutz J, Toulza E, Wyss T, Zelensky A, Zhou K, Armbrust EV, Bhattacharya D, Goodenough UW, Van de Peer Y, Grigoriev IV (2009)
Science 324 :268