Laudet V

References (3)

Title : Thyroglobulin Represents a Novel Molecular Architecture of Vertebrates - Holzer_2016_J.Biol.Chem_291_16553
Author(s) : Holzer G , Morishita Y , Fini JB , Lorin T , Gillet B , Hughes S , Tohme M , Deleage G , Demeneix B , Arvan P , Laudet V
Ref : Journal of Biological Chemistry , 291 :16553 , 2016
Abstract : Thyroid hormones modulate not only multiple functions in vertebrates (energy metabolism, central nervous system function, seasonal changes in physiology, and behavior) but also in some non-vertebrates where they control critical post-embryonic developmental transitions such as metamorphosis. Despite their obvious biological importance, the thyroid hormone precursor protein, thyroglobulin (Tg), has been experimentally investigated only in mammals. This may bias our view of how thyroid hormones are produced in other organisms. In this study we searched genomic databases and found Tg orthologs in all vertebrates including the sea lamprey (Petromyzon marinus). We cloned a full-size Tg coding sequence from western clawed frog (Xenopus tropicalis) and zebrafish (Danio rerio). Comparisons between the representative mammal, amphibian, teleost fish, and basal vertebrate indicate that all of the different domains of Tg, as well as Tg regional structure, are conserved throughout the vertebrates. Indeed, in Xenopus, zebrafish, and lamprey Tgs, key residues, including the hormonogenic tyrosines and the disulfide bond-forming cysteines critical for Tg function, are well conserved despite overall divergence of amino acid sequences. We uncovered upstream sequences that include start codons of zebrafish and Xenopus Tgs and experimentally proved that these are full-length secreted proteins, which are specifically recognized by antibodies against rat Tg. By contrast, we have not been able to find any orthologs of Tg among non-vertebrate species. Thus, Tg appears to be a novel protein elaborated as a single event at the base of vertebrates and virtually unchanged thereafter.
ESTHER : Holzer_2016_J.Biol.Chem_291_16553
PubMedSearch : Holzer_2016_J.Biol.Chem_291_16553
PubMedID: 27311711

Title : The genome of the model beetle and pest Tribolium castaneum - Richards_2008_Nature_452_949
Author(s) : Richards S , Gibbs RA , Weinstock GM , Brown SJ , Denell R , Beeman RW , Gibbs R , Bucher G , Friedrich M , Grimmelikhuijzen CJ , Klingler M , Lorenzen M , Roth S , Schroder R , Tautz D , Zdobnov EM , Muzny D , Attaway T , Bell S , Buhay CJ , Chandrabose MN , Chavez D , Clerk-Blankenburg KP , Cree A , Dao M , Davis C , Chacko J , Dinh H , Dugan-Rocha S , Fowler G , Garner TT , Garnes J , Gnirke A , Hawes A , Hernandez J , Hines S , Holder M , Hume J , Jhangiani SN , Joshi V , Khan ZM , Jackson L , Kovar C , Kowis A , Lee S , Lewis LR , Margolis J , Morgan M , Nazareth LV , Nguyen N , Okwuonu G , Parker D , Ruiz SJ , Santibanez J , Savard J , Scherer SE , Schneider B , Sodergren E , Vattahil S , Villasana D , White CS , Wright R , Park Y , Lord J , Oppert B , Brown S , Wang L , Weinstock G , Liu Y , Worley K , Elsik CG , Reese JT , Elhaik E , Landan G , Graur D , Arensburger P , Atkinson P , Beidler J , Demuth JP , Drury DW , Du YZ , Fujiwara H , Maselli V , Osanai M , Robertson HM , Tu Z , Wang JJ , Wang S , Song H , Zhang L , Werner D , Stanke M , Morgenstern B , Solovyev V , Kosarev P , Brown G , Chen HC , Ermolaeva O , Hlavina W , Kapustin Y , Kiryutin B , Kitts P , Maglott D , Pruitt K , Sapojnikov V , Souvorov A , Mackey AJ , Waterhouse RM , Wyder S , Kriventseva EV , Kadowaki T , Bork P , Aranda M , Bao R , Beermann A , Berns N , Bolognesi R , Bonneton F , Bopp D , Butts T , Chaumot A , Denell RE , Ferrier DE , Gordon CM , Jindra M , Lan Q , Lattorff HM , Laudet V , von Levetsow C , Liu Z , Lutz R , Lynch JA , da Fonseca RN , Posnien N , Reuter R , Schinko JB , Schmitt C , Schoppmeier M , Shippy TD , Simonnet F , Marques-Souza H , Tomoyasu Y , Trauner J , Van der Zee M , Vervoort M , Wittkopp N , Wimmer EA , Yang X , Jones AK , Sattelle DB , Ebert PR , Nelson D , Scott JG , Muthukrishnan S , Kramer KJ , Arakane Y , Zhu Q , Hogenkamp D , Dixit R , Jiang H , Zou Z , Marshall J , Elpidina E , Vinokurov K , Oppert C , Evans J , Lu Z , Zhao P , Sumathipala N , Altincicek B , Vilcinskas A , Williams M , Hultmark D , Hetru C , Hauser F , Cazzamali G , Williamson M , Li B , Tanaka Y , Predel R , Neupert S , Schachtner J , Verleyen P , Raible F , Walden KK , Angeli S , Foret S , Schuetz S , Maleszka R , Miller SC , Grossmann D
Ref : Nature , 452 :949 , 2008
Abstract : Tribolium castaneum is a member of the most species-rich eukaryotic order, a powerful model organism for the study of generalized insect development, and an important pest of stored agricultural products. We describe its genome sequence here. This omnivorous beetle has evolved the ability to interact with a diverse chemical environment, as shown by large expansions in odorant and gustatory receptors, as well as P450 and other detoxification enzymes. Development in Tribolium is more representative of other insects than is Drosophila, a fact reflected in gene content and function. For example, Tribolium has retained more ancestral genes involved in cell-cell communication than Drosophila, some being expressed in the growth zone crucial for axial elongation in short-germ development. Systemic RNA interference in T. castaneum functions differently from that in Caenorhabditis elegans, but nevertheless offers similar power for the elucidation of gene function and identification of targets for selective insect control.
ESTHER : Richards_2008_Nature_452_949
PubMedSearch : Richards_2008_Nature_452_949
PubMedID: 18362917
Gene_locus related to this paper: trica-ACHE1 , trica-ACHE2 , trica-d2a0g9 , trica-d2a0h0 , trica-d2a0w9 , trica-d2a0x0 , trica-d2a0x1 , trica-d2a0x3 , trica-d2a0x4.1 , trica-d2a0x4.2 , trica-d2a0x6 , trica-d2a2b8 , trica-d2a2h1 , trica-d2a3c3 , trica-d2a3g9 , trica-d2a5y5 , trica-d2a309 , trica-d2a514 , trica-d2a515 , trica-d2a516 , trica-d2a577 , trica-d2a578 , trica-d6w6x8 , trica-d6w7f9 , trica-d6w7h2 , trica-d6w8e7 , trica-d6w9c0 , trica-d6w855 , trica-d6wac8 , trica-d6wan4 , trica-d6wd50 , trica-d6wd73 , trica-d6wd74 , trica-A0A139WM97 , trica-d6wfu3 , trica-d6wgl2 , trica-d6wj57 , trica-d6wj59 , trica-d6wjs3 , trica-d6wl31 , trica-d6wnv1 , trica-d6wpl0 , trica-d6wqd6 , trica-d6wqr4 , trica-d6ws52 , trica-d6wsm0 , trica-d6wu38 , trica-d6wu39 , trica-d6wu40 , trica-d6wu41 , trica-d6wu44 , trica-d6wvk5 , trica-d6wvz7 , trica-d6wwu9 , trica-d6wwv0 , trica-d6wxz0 , trica-d6wyy1 , trica-d6wyy2 , trica-d6x0z2 , trica-d6x0z5 , trica-d6x0z6 , trica-d6x4b2 , trica-d6x4e8 , trica-d6x4e9 , trica-d6x197 , trica-d7eip7 , trica-d7eld3 , trica-d7us45 , trica-q5wm43 , trica-q5zex9 , trica-d6wie5 , trica-d6w7t0 , trica-d6x4h0 , trica-d6x4h1 , trica-a0a139wae8 , trica-a0a139wc96 , trica-d6x325 , trica-d2a4s2 , trica-d6wvw8

Title : Genome duplication in the teleost fish Tetraodon nigroviridis reveals the early vertebrate proto-karyotype - Jaillon_2004_Nature_431_946
Author(s) : Jaillon O , Aury JM , Brunet F , Petit JL , Stange-Thomann N , Mauceli E , Bouneau L , Fischer C , Ozouf-Costaz C , Bernot A , Nicaud S , Jaffe D , Fisher S , Lutfalla G , Dossat C , Segurens B , Dasilva C , Salanoubat M , Levy M , Boudet N , Castellano S , Anthouard V , Jubin C , Castelli V , Katinka M , Vacherie B , Biemont C , Skalli Z , Cattolico L , Poulain J , de Berardinis V , Cruaud C , Duprat S , Brottier P , Coutanceau JP , Gouzy J , Parra G , Lardier G , Chapple C , McKernan KJ , McEwan P , Bosak S , Kellis M , Volff JN , Guigo R , Zody MC , Mesirov J , Lindblad-Toh K , Birren B , Nusbaum C , Kahn D , Robinson-Rechavi M , Laudet V , Schachter V , Quetier F , Saurin W , Scarpelli C , Wincker P , Lander ES , Weissenbach J , Roest Crollius H
Ref : Nature , 431 :946 , 2004
Abstract : Tetraodon nigroviridis is a freshwater puffer fish with the smallest known vertebrate genome. Here, we report a draft genome sequence with long-range linkage and substantial anchoring to the 21 Tetraodon chromosomes. Genome analysis provides a greatly improved fish gene catalogue, including identifying key genes previously thought to be absent in fish. Comparison with other vertebrates and a urochordate indicates that fish proteins have diverged markedly faster than their mammalian homologues. Comparison with the human genome suggests approximately 900 previously unannotated human genes. Analysis of the Tetraodon and human genomes shows that whole-genome duplication occurred in the teleost fish lineage, subsequent to its divergence from mammals. The analysis also makes it possible to infer the basic structure of the ancestral bony vertebrate genome, which was composed of 12 chromosomes, and to reconstruct much of the evolutionary history of ancient and recent chromosome rearrangements leading to the modern human karyotype.
ESTHER : Jaillon_2004_Nature_431_946
PubMedSearch : Jaillon_2004_Nature_431_946
PubMedID: 15496914
Gene_locus related to this paper: tetng-3neur , tetng-4neur , tetng-ACHE , tetng-BCHE , tetng-h3cfz4 , tetng-h3ci57 , tetng-h3cl30 , tetng-h3cnh2 , tetng-nlgn2b , tetng-h3czr1 , tetng-h3dbr5 , tetng-nlgn2a , tetng-nlgn3b , tetng-q4ref8 , tetng-q4rjp3 , tetng-q4rjy3 , tetng-q4rk53 , tetng-q4rk63 , tetng-q4rk66 , tetng-q4rkk3 , tetng-q4rli3 , tetng-q4rn09 , tetng-q4rqj4 , tetng-q4rqz6 , tetng-q4rr22 , tetng-q4rru9 , tetng-q4rtq6 , tetng-q4rvf8 , tetng-q4rwa0 , tetng-q4rx90 , tetng-q4ryv8 , tetng-q4ryz3 , tetng-q4s0h8 , tetng-q4s5x0 , tetng-q4s6r1 , tetng-q4s6t6 , tetng-q4s7e3 , tetng-q4s7x6 , tetng-q4s8t5 , tetng-q4s9w9 , tetng-q4s050 , tetng-q4s091 , tetng-q4s144 , tetng-q4s309 , tetng-q4s578 , tetng-q4sal4 , tetng-q4sbm6 , tetng-q4sbp0 , tetng-q4sbu0 , tetng-q4sd49 , tetng-q4ser6 , tetng-q4sfm7 , tetng-q4sgm5 , tetng-q4sgv2 , tetng-q4sh74 , tetng-q4shl7 , tetng-q4si60 , tetng-q4sie5 , tetng-q4sku6 , tetng-q4smu0 , tetng-q4smy3 , tetng-q4snp0 , tetng-q4snq3 , tetng-q4spa7 , tetng-q4spq0 , tetng-q4sqr3 , tetng-q4sty0 , tetng-q4suu2 , tetng-q4suz1 , tetng-q4sxh3 , tetng-q4syn6 , tetng-q4szk0 , tetng-q4szy0 , tetng-q4t3m9 , tetng-q4t4a1 , tetng-q4t6m1 , tetng-q4t7r6 , tetng-q4t173 , tetng-q4t826 , tetng-q4t920 , tetng-q4ta33 , tetng-q4tab8 , tetng-q4tb62 , tetng-q4tbe2 , tetng-h3dbw2 , tetng-h3cpc8 , tetng-h3cjy0 , tetng-h3d966 , tetng-h3d3e3 , tetng-h3d961 , tetng-h3ctg6 , tetng-h3dde8 , tetng-h3dde9 , tetng-h3det9 , tetng-h3cre8 , tetng-h3dfb4 , tetng-h3clj8