about
Maternal expression relaxes constraint on innovation of the anterior determinant, bicoid.Genome-wide acceleration of protein evolution in flies (Diptera).Composition and genomic organization of arthropod Hox clustersCaudal regulates the spatiotemporal dynamics of pair-rule waves in TriboliumEmbryonic desiccation resistance in Aedes aegypti: presumptive role of the chitinized Serosal CuticleBasonuclin 2 has a function in the multiplication of embryonic craniofacial mesenchymal cells and is orthologous to disco proteinsMichael Akam and the rise of evolutionary developmental biologyThe cnidarian-bilaterian ancestor possessed at least 56 homeoboxes: evidence from the starlet sea anemone, Nematostella vectensisA cricket Gene Index: a genomic resource for studying neurobiology, speciation, and molecular evolution.Maternal expression and early zygotic regulation of the Hox3/zen gene in the grasshopper Schistocerca gregaria.Gene up-regulation in response to predator kairomones in the water flea, Daphnia pulexA single Hox3 gene with composite bicoid and zerknullt expression characteristics in non-Cyclorrhaphan flies.It's a bug's lifeAncient expansion of the hox cluster in lepidoptera generated four homeobox genes implicated in extra-embryonic tissue formation.Sequence of the Tribolium castaneum homeotic complex: the region corresponding to the Drosophila melanogaster antennapedia complex.Hox genes and the evolution of the arthropod body plan.Patterns of conservation and change in honey bee developmental genes.Duplicated Hox genes in the spider Cupiennius saleiConserved and divergent aspects of terminal patterning in the beetle Tribolium castaneum.The anterior determinant bicoid of Drosophila is a derived Hox class 3 gene.Organization of the Hox gene cluster in the grasshopper, Schistocerca gregariaAncestral whole-genome duplication in the marine chelicerate horseshoe crabs.Establishment of tribolium as a genetic model system and its early contributions to evo-devoUse with caution: developmental systems divergence and potential pitfalls of animal models.Toward new Drosophila paradigms.Amnioserosa development and function in Drosophila embryogenesis: Critical mechanical roles for an extraembryonic tissue.HOX gene complement and expression in the planarian Schmidtea mediterranea.Identification of Hox genes and rearrangements within the single homeobox (Hox) cluster (192.8 kb) of the cyclopoid copepod (Paracyclopina nana).Characterization of the Hox cluster from the mosquito Anopheles gambiae (Diptera: Culicidae).The genes orthodenticle and hunchback substitute for bicoid in the beetle Tribolium.Maxillopedia is the Tribolium ortholog of proboscipedia.fushi tarazu: a Hox gene changes its role.The extraembryonic serosa protects the insect egg against desiccation.Expression patterns of the rogue Hox genes Hox3/zen and fushi tarazu in the apterygote insect Thermobia domestica.Chelicerate Hox genes and the homology of arthropod segments.Expression of a homologue of the fushi tarazu (ftz) gene in a cirripede crustacean.Molecular phylogeny of the Platyhelminthes
P2860
Q24816816-7E0D0397-C239-4B93-9210-86A2EDC539BEQ25255543-07FF68DD-CC47-4D97-AAE6-B67F10450FD1Q26315473-0F01AD24-570E-477C-8956-B1D412F997B9Q27312680-F071C8F6-00E4-40B5-A762-A1B5043F08FEQ27487005-5A306901-65BB-4206-8B9F-7E321628AF1AQ28587971-CFDDAA4C-0859-4330-A8A5-F8E9A5FFB1DAQ28748211-6194C0EF-5E7C-4822-AAEC-DBF563F7C879Q28763796-B09D9AEC-AFB1-4148-A088-62128CF192ACQ30479522-0B594A98-9851-41E2-B61E-4E71876C6610Q30658878-07AFE859-C6B5-469D-A83F-CA75AF52B0FCQ33569275-2C1DF98A-3482-4FA8-8F2E-291A53A3FB37Q33897401-48AEC54D-0283-43C5-BEBF-0FA8E9C6B767Q33898792-AADC27F9-9785-4E0E-834A-8F35DD6576C2Q34394762-B3B8B787-86BD-4246-B7F3-E5BA5A0FF8DEQ34614645-54EA9951-86F3-4C2F-A7CA-B716C65225AEQ35030473-527E197F-BDC8-4C82-B00A-1EBC4CC89E17Q35113824-80AEEC10-6A6F-44B9-B9EB-3E9D7CAB4035Q35723259-26C70DC7-1291-4D3B-BBC9-9533F73C1907Q35787885-539DB500-1151-47CF-90E6-DDE52129EB69Q36451384-4B0043DD-FD31-412C-8F12-70826253B21FQ36687020-4F73F6E8-E757-4D09-BDE9-BEA5DE10D345Q36726482-523288A5-DCC9-4A05-949D-43D04CBFA62EQ37011283-A89B30E4-9F96-4719-BA4F-0BB32167DD87Q37534303-A115299D-1402-4650-BF4C-479D34AEB05EQ37986637-5DA2BDE9-3CF9-49FC-9E20-DCC869FC4DB4Q38734018-0A151BCB-FB1F-4F46-A860-953531AE9EC8Q39718025-25668C67-73CD-47A2-A53F-5464DD4E2C2BQ40034710-071DFED4-EC05-420C-BC46-4B2A42B6F47EQ44145206-74E9366B-AC0F-4AD1-B0A5-75A81DE05B4EQ45714168-F045A875-69A4-4584-9ACA-69FD7265EAF8Q45905748-EA45DC66-304D-49A8-B029-46493E5F1649Q47072569-1A961D92-3D85-462A-821B-CF4AD6B1E99FQ51526846-A0CDD7DD-D20A-4465-BE97-EF54EA26D2F2Q52086204-77CEB046-5CCD-4B8C-9915-CEA33AE99206Q52136184-599E60BC-5329-4EB4-985C-4A0556AE07CBQ52596138-81A283DB-0D97-4D3F-83B5-76E16FC26905Q54508877-CE57AD08-BE5E-420D-A248-73EA400B6922
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on August 1996
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Class 3 Hox genes in insects and the origin of zen.
@en
Class 3 Hox genes in insects and the origin of zen.
@nl
type
label
Class 3 Hox genes in insects and the origin of zen.
@en
Class 3 Hox genes in insects and the origin of zen.
@nl
prefLabel
Class 3 Hox genes in insects and the origin of zen.
@en
Class 3 Hox genes in insects and the origin of zen.
@nl
P2093
P2860
P50
P356
P1476
Class 3 Hox genes in insects and the origin of zen
@en
P2093
P2860
P304
P356
10.1073/PNAS.93.16.8479
P407
P577
1996-08-01T00:00:00Z