Werner D

References (3)

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 sequence of Aedes aegypti, a major arbovirus vector - Nene_2007_Science_316_1718
Author(s) : Nene V , Wortman JR , Lawson D , Haas B , Kodira C , Tu ZJ , Loftus B , Xi Z , Megy K , Grabherr M , Ren Q , Zdobnov EM , Lobo NF , Campbell KS , Brown SE , Bonaldo MF , Zhu J , Sinkins SP , Hogenkamp DG , Amedeo P , Arensburger P , Atkinson PW , Bidwell S , Biedler J , Birney E , Bruggner RV , Costas J , Coy MR , Crabtree J , Crawford M , Debruyn B , Decaprio D , Eiglmeier K , Eisenstadt E , El-Dorry H , Gelbart WM , Gomes SL , Hammond M , Hannick LI , Hogan JR , Holmes MH , Jaffe D , Johnston JS , Kennedy RC , Koo H , Kravitz S , Kriventseva EV , Kulp D , LaButti K , Lee E , Li S , Lovin DD , Mao C , Mauceli E , Menck CF , Miller JR , Montgomery P , Mori A , Nascimento AL , Naveira HF , Nusbaum C , O'Leary S , Orvis J , Pertea M , Quesneville H , Reidenbach KR , Rogers YH , Roth CW , Schneider JR , Schatz M , Shumway M , Stanke M , Stinson EO , Tubio JM , Vanzee JP , Verjovski-Almeida S , Werner D , White O , Wyder S , Zeng Q , Zhao Q , Zhao Y , Hill CA , Raikhel AS , Soares MB , Knudson DL , Lee NH , Galagan J , Salzberg SL , Paulsen IT , Dimopoulos G , Collins FH , Birren B , Fraser-Liggett CM , Severson DW
Ref : Science , 316 :1718 , 2007
Abstract : We present a draft sequence of the genome of Aedes aegypti, the primary vector for yellow fever and dengue fever, which at approximately 1376 million base pairs is about 5 times the size of the genome of the malaria vector Anopheles gambiae. Nearly 50% of the Ae. aegypti genome consists of transposable elements. These contribute to a factor of approximately 4 to 6 increase in average gene length and in sizes of intergenic regions relative to An. gambiae and Drosophila melanogaster. Nonetheless, chromosomal synteny is generally maintained among all three insects, although conservation of orthologous gene order is higher (by a factor of approximately 2) between the mosquito species than between either of them and the fruit fly. An increase in genes encoding odorant binding, cytochrome P450, and cuticle domains relative to An. gambiae suggests that members of these protein families underpin some of the biological differences between the two mosquito species.
ESTHER : Nene_2007_Science_316_1718
PubMedSearch : Nene_2007_Science_316_1718
PubMedID: 17510324
Gene_locus related to this paper: aedae-ACHE , aedae-ACHE1 , aedae-glita , aedae-q0iea6 , aedae-q0iev6 , aedae-q0ifn6 , aedae-q0ifn8 , aedae-q0ifn9 , aedae-q0ifp0 , aedae-q0ig41 , aedae-q1dgl0 , aedae-q1dh03 , aedae-q1dh19 , aedae-q1hqe6 , aedae-Q8ITU8 , aedae-Q8MMJ6 , aedae-Q8T9V6 , aedae-q16e91 , aedae-q16f04 , aedae-q16f25 , aedae-q16f26 , aedae-q16f28 , aedae-q16f29 , aedae-q16f30 , aedae-q16gq5 , aedae-q16iq5 , aedae-q16je0 , aedae-q16je1 , aedae-q16je2 , aedae-q16ks8 , aedae-q16lf2 , aedae-q16lv6 , aedae-q16m61 , aedae-q16mc1 , aedae-q16mc6 , aedae-q16mc7 , aedae-q16md1 , aedae-q16ms7 , aedae-q16nk5 , aedae-q16rl5 , aedae-q16rz9 , aedae-q16si8 , aedae-q16t49 , aedae-q16wf1 , aedae-q16x18 , aedae-q16xp8 , aedae-q16xu6 , aedae-q16xw5 , aedae-q16xw6 , aedae-q16y04 , aedae-q16y05 , aedae-q16y06 , aedae-q16y07 , aedae-q16y39 , aedae-q16y40 , aedae-q16yg4 , aedae-q16z03 , aedae-q17aa7 , aedae-q17av1 , aedae-q17av2 , aedae-q17av3 , aedae-q17av4 , aedae-q17b28 , aedae-q17b29 , aedae-q17b30 , aedae-q17b31 , aedae-q17b32 , aedae-q17bm3 , aedae-q17bm4 , aedae-q17bv7 , aedae-q17c44 , aedae-q17cz1 , aedae-q17d32 , aedae-q17g39 , aedae-q17g40 , aedae-q17g41 , aedae-q17g42 , aedae-q17g43 , aedae-q17g44 , aedae-q17gb8 , aedae-q17gr3 , aedae-q17if7 , aedae-q17if9 , aedae-q17ig1 , aedae-q17ig2 , aedae-q17is4 , aedae-q17l09 , aedae-q17m26 , aedae-q17mg9 , aedae-q17mv4 , aedae-q17mv5 , aedae-q17mv6 , aedae-q17mv7 , aedae-q17mw8 , aedae-q17mw9 , aedae-q17nw5 , aedae-q17nx5 , aedae-q17pa4 , aedae-q17q69 , aedae-q170k7 , aedae-q171y4 , aedae-q172e0 , aedae-q176i8 , aedae-q176j0 , aedae-q177k1 , aedae-q177k2 , aedae-q177l9 , aedae-j9hic3 , aedae-q179r9 , aedae-u483 , aedae-j9hj23 , aedae-q17d68 , aedae-q177c7 , aedae-q0ifp1 , aedae-a0a1s4fx83 , aedae-a0a1s4g2m0 , aedae-q1hr49

Title : Genetic analysis of a pH-regulated operon from Rhizobium tropici CIAT899 involved in acid tolerance and nodulation competitiveness - Vinuesa_2003_Mol.Plant.Microbe.Interact_16_159
Author(s) : Vinuesa P , Neumann-Silkow F , Pacios-Bras C , Spaink HP , Martinez-Romero E , Werner D
Ref : Mol Plant Microbe Interact , 16 :159 , 2003
Abstract : Rhizobium tropici CIAT899 is highly acid tolerant and a good competitor for Phaseolus vulgaris nodule occupancy at low pH values. Using Tn5 mutagenesis, we identified an operon required for acid tolerance and nodulation competitiveness. The insertion was mapped to the 5' end of atvA, encoding a product with high sequence identity to the agro-bacterial AcvB virulence protein. Complementation analyses indicated that atvA is an ortholog of acvB, both genes being required for acid tolerance. A Ser/Ala substitution in the LIPASE_SER motif of AtvA resulted in an acid sensitive Fix+ but very poorly competing strain, demonstrating that Ser-313 is essential for AtvA function. atvA is the second gene in an operon that is transcriptionally upregulated by acid shock. The acid-responsive promoter was mapped to a 469-bp intergenic region located upstream of lpiA, the first gene in the operon. lpiA-like genes are found in several alpha, beta, and gamma Proteobacteria that interact with eukaryotic host cells, and they are predicted to encode membrane proteins related to the FmtC/MprF family from low G+C Firmicutes. The latter proteins are involved in resistance to cationic antimicrobial peptides. A nonpolar deletion in lpiA caused a sevenfold decrease in relative nodulation competitiveness.
ESTHER : Vinuesa_2003_Mol.Plant.Microbe.Interact_16_159
PubMedSearch : Vinuesa_2003_Mol.Plant.Microbe.Interact_16_159
PubMedID: 12575750
Gene_locus related to this paper: rhitr-ATVA