Grimmelikhuijzen CJ

References (5)

Title : The genomes of two key bumblebee species with primitive eusocial organization - Sadd_2015_Genome.Biol_16_76
Author(s) : Sadd BM , Barribeau SM , Bloch G , de Graaf DC , Dearden P , Elsik CG , Gadau J , Grimmelikhuijzen CJ , Hasselmann M , Lozier JD , Robertson HM , Smagghe G , Stolle E , Van Vaerenbergh M , Waterhouse RM , Bornberg-Bauer E , Klasberg S , Bennett AK , Camara F , Guigo R , Hoff K , Mariotti M , Munoz-Torres M , Murphy T , Santesmasses D , Amdam GV , Beckers M , Beye M , Biewer M , Bitondi MM , Blaxter ML , Bourke AF , Brown MJ , Buechel SD , Cameron R , Cappelle K , Carolan JC , Christiaens O , Ciborowski KL , Clarke DF , Colgan TJ , Collins DH , Cridge AG , Dalmay T , Dreier S , du Plessis L , Duncan E , Erler S , Evans J , Falcon T , Flores K , Freitas FC , Fuchikawa T , Gempe T , Hartfelder K , Hauser F , Helbing S , Humann FC , Irvine F , Jermiin LS , Johnson CE , Johnson RM , Jones AK , Kadowaki T , Kidner JH , Koch V , Kohler A , Kraus FB , Lattorff HM , Leask M , Lockett GA , Mallon EB , Antonio DS , Marxer M , Meeus I , Moritz RF , Nair A , Napflin K , Nissen I , Niu J , Nunes FM , Oakeshott JG , Osborne A , Otte M , Pinheiro DG , Rossie N , Rueppell O , Santos CG , Schmid-Hempel R , Schmitt BD , Schulte C , Simoes ZL , Soares MP , Swevers L , Winnebeck EC , Wolschin F , Yu N , Zdobnov EM , Aqrawi PK , Blankenburg KP , Coyle M , Francisco L , Hernandez AG , Holder M , Hudson ME , Jackson L , Jayaseelan J , Joshi V , Kovar C , Lee SL , Mata R , Mathew T , Newsham IF , Ngo R , Okwuonu G , Pham C , Pu LL , Saada N , Santibanez J , Simmons D , Thornton R , Venkat A , Walden KK , Wu YQ , Debyser G , Devreese B , Asher C , Blommaert J , Chipman AD , Chittka L , Fouks B , Liu J , O'Neill MP , Sumner S , Puiu D , Qu J , Salzberg SL , Scherer SE , Muzny DM , Richards S , Robinson GE , Gibbs RA , Schmid-Hempel P , Worley KC
Ref : Genome Biol , 16 :76 , 2015
Abstract : BACKGROUND: The shift from solitary to social behavior is one of the major evolutionary transitions. Primitively eusocial bumblebees are uniquely placed to illuminate the evolution of highly eusocial insect societies. Bumblebees are also invaluable natural and agricultural pollinators, and there is widespread concern over recent population declines in some species. High-quality genomic data will inform key aspects of bumblebee biology, including susceptibility to implicated population viability threats.
RESULTS: We report the high quality draft genome sequences of Bombus terrestris and Bombus impatiens, two ecologically dominant bumblebees and widely utilized study species. Comparing these new genomes to those of the highly eusocial honeybee Apis mellifera and other Hymenoptera, we identify deeply conserved similarities, as well as novelties key to the biology of these organisms. Some honeybee genome features thought to underpin advanced eusociality are also present in bumblebees, indicating an earlier evolution in the bee lineage. Xenobiotic detoxification and immune genes are similarly depauperate in bumblebees and honeybees, and multiple categories of genes linked to social organization, including development and behavior, show high conservation. Key differences identified include a bias in bumblebee chemoreception towards gustation from olfaction, and striking differences in microRNAs, potentially responsible for gene regulation underlying social and other traits.
CONCLUSIONS: These two bumblebee genomes provide a foundation for post-genomic research on these key pollinators and insect societies. Overall, gene repertoires suggest that the route to advanced eusociality in bees was mediated by many small changes in many genes and processes, and not by notable expansion or depauperation.
ESTHER : Sadd_2015_Genome.Biol_16_76
PubMedSearch : Sadd_2015_Genome.Biol_16_76
PubMedID: 25908251

Title : The genome of the leaf-cutting ant Acromyrmex echinatior suggests key adaptations to advanced social life and fungus farming - Nygaard_2011_Genome.Res_21_1339
Author(s) : Nygaard S , Zhang G , Schiott M , Li C , Wurm Y , Hu H , Zhou J , Ji L , Qiu F , Rasmussen M , Pan H , Hauser F , Krogh A , Grimmelikhuijzen CJ , Wang J , Boomsma JJ
Ref : Genome Res , 21 :1339 , 2011
Abstract : We present a high-quality (>100x depth) Illumina genome sequence of the leaf-cutting ant Acromyrmex echinatior, a model species for symbiosis and reproductive conflict studies. We compare this genome with three previously sequenced genomes of ants from different subfamilies and focus our analyses on aspects of the genome likely to be associated with known evolutionary changes. The first is the specialized fungal diet of A. echinatior, where we find gene loss in the ant's arginine synthesis pathway, loss of detoxification genes, and expansion of a group of peptidase proteins. One of these is a unique ant-derived contribution to the fecal fluid, which otherwise consists of "garden manuring" fungal enzymes that are unaffected by ant digestion. The second is multiple mating of queens and ejaculate competition, which may be associated with a greatly expanded nardilysin-like peptidase gene family. The third is sex determination, where we could identify only a single homolog of the feminizer gene. As other ants and the honeybee have duplications of this gene, we hypothesize that this may partly explain the frequent production of diploid male larvae in A. echinatior. The fourth is the evolution of eusociality, where we find a highly conserved ant-specific profile of neuropeptide genes that may be related to caste determination. These first analyses of the A. echinatior genome indicate that considerable genetic changes are likely to have accompanied the transition from hunter-gathering to agricultural food production 50 million years ago, and the transition from single to multiple queen mating 10 million years ago.
ESTHER : Nygaard_2011_Genome.Res_21_1339
PubMedSearch : Nygaard_2011_Genome.Res_21_1339
PubMedID: 21719571
Gene_locus related to this paper: acrec-f4we58 , acrec-f4wfr0 , acrec-f4wwr9 , acrec-f4x396 , acrec-f4wlq1 , acrec-f4wk97 , acrec-f4wdb2 , acrec-f4wdb3 , acrec-f4x1t2

Title : Functional and evolutionary insights from the genomes of three parasitoid Nasonia species - Werren_2010_Science_327_343
Author(s) : Werren JH , Richards S , Desjardins CA , Niehuis O , Gadau J , Colbourne JK , Beukeboom LW , Desplan C , Elsik CG , Grimmelikhuijzen CJ , Kitts P , Lynch JA , Murphy T , Oliveira DC , Smith CD , van de Zande L , Worley KC , Zdobnov EM , Aerts M , Albert S , Anaya VH , Anzola JM , Barchuk AR , Behura SK , Bera AN , Berenbaum MR , Bertossa RC , Bitondi MM , Bordenstein SR , Bork P , Bornberg-Bauer E , Brunain M , Cazzamali G , Chaboub L , Chacko J , Chavez D , Childers CP , Choi JH , Clark ME , Claudianos C , Clinton RA , Cree AG , Cristino AS , Dang PM , Darby AC , de Graaf DC , Devreese B , Dinh HH , Edwards R , Elango N , Elhaik E , Ermolaeva O , Evans JD , Foret S , Fowler GR , Gerlach D , Gibson JD , Gilbert DG , Graur D , Grunder S , Hagen DE , Han Y , Hauser F , Hultmark D , Hunter HCt , Hurst GD , Jhangian SN , Jiang H , Johnson RM , Jones AK , Junier T , Kadowaki T , Kamping A , Kapustin Y , Kechavarzi B , Kim J , Kiryutin B , Koevoets T , Kovar CL , Kriventseva EV , Kucharski R , Lee H , Lee SL , Lees K , Lewis LR , Loehlin DW , Logsdon JM, Jr. , Lopez JA , Lozado RJ , Maglott D , Maleszka R , Mayampurath A , Mazur DJ , McClure MA , Moore AD , Morgan MB , Muller J , Munoz-Torres MC , Muzny DM , Nazareth LV , Neupert S , Nguyen NB , Nunes FM , Oakeshott JG , Okwuonu GO , Pannebakker BA , Pejaver VR , Peng Z , Pratt SC , Predel R , Pu LL , Ranson H , Raychoudhury R , Rechtsteiner A , Reese JT , Reid JG , Riddle M , Robertson HM , Romero-Severson J , Rosenberg M , Sackton TB , Sattelle DB , Schluns H , Schmitt T , Schneider M , Schuler A , Schurko AM , Shuker DM , Simoes ZL , Sinha S , Smith Z , Solovyev V , Souvorov A , Springauf A , Stafflinger E , Stage DE , Stanke M , Tanaka Y , Telschow A , Trent C , Vattathil S , Verhulst EC , Viljakainen L , Wanner KW , Waterhouse RM , Whitfield JB , Wilkes TE , Williamson MS , Willis JH , Wolschin F , Wyder S , Yamada T , Yi SV , Zecher CN , Zhang L , Gibbs RA , Williamson M
Ref : Science , 327 :343 , 2010
Abstract : We report here genome sequences and comparative analyses of three closely related parasitoid wasps: Nasonia vitripennis, N. giraulti, and N. longicornis. Parasitoids are important regulators of arthropod populations, including major agricultural pests and disease vectors, and Nasonia is an emerging genetic model, particularly for evolutionary and developmental genetics. Key findings include the identification of a functional DNA methylation tool kit; hymenopteran-specific genes including diverse venoms; lateral gene transfers among Pox viruses, Wolbachia, and Nasonia; and the rapid evolution of genes involved in nuclear-mitochondrial interactions that are implicated in speciation. Newly developed genome resources advance Nasonia for genetic research, accelerate mapping and cloning of quantitative trait loci, and will ultimately provide tools and knowledge for further increasing the utility of parasitoids as pest insect-control agents.
ESTHER : Werren_2010_Science_327_343
PubMedSearch : Werren_2010_Science_327_343
PubMedID: 20075255
Gene_locus related to this paper: nasvi-ACHE1 , nasvi-ACHE2 , nasvi-k7in31 , nasvi-k7iwl9 , nasvi-k7iyk8 , nasvi-k7jlv1 , nasvi-k7in32 , nasvi-k7ind2 , nasvi-k7inh0 , nasvi-k7inh1 , nasvi-k7inh2 , nasvi-k7inp9 , nasvi-k7iun7 , nasvi-k7iv21 , nasvi-k7ivn5 , nasvi-k7ivn6 , nasvi-k7iw29 , nasvi-k7iwk5 , nasvi-k7iwl8 , nasvi-k7iz24 , nasvi-k7izb4 , nasvi-k7j5u6 , nasvi-k7j6y1 , nasvi-k7j6y2 , nasvi-k7j6y4 , nasvi-k7j718 , nasvi-k7j755 , nasvi-k7j756 , nasvi-k7j757 , nasvi-k7j7k5 , nasvi-k7j7n7 , nasvi-k7j7r8 , nasvi-k7j7s8 , nasvi-k7j7s9 , nasvi-k7j811 , nasvi-k7iny8 , nasvi-k7izf2 , nasvi-k7iwe2 , nasvi-k7j6w4 , nasvi-k7izl9 , nasvi-k7jf39 , nasvi-k7izl8 , nasvi-k7irf1 , nasvi-k7j7l1

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 : The promise of insect genomics - Grimmelikhuijzen_2007_Pest.Manag.Sci_63_413
Author(s) : Grimmelikhuijzen CJ , Cazzamali G , Williamson MS , Hauser F
Ref : Pest Manag Sci , 63 :413 , 2007
Abstract : Insects are the largest animal group in the world and are ecologically and economically extremely important. This importance of insects is reflected by the existence of currently 24 insect genome projects. Our perspective discusses the state-of-the-art of these genome projects and the impacts that they have on basic insect science and pest control.
ESTHER : Grimmelikhuijzen_2007_Pest.Manag.Sci_63_413
PubMedSearch : Grimmelikhuijzen_2007_Pest.Manag.Sci_63_413
PubMedID: 17377971