| scholarly article | Q13442814 |
| P50 | author | Carolin Haug | Q41007931 |
| Joachim T. Haug | Q41007968 | ||
| P2093 | author name string | Susan Brown | |
| Conrad C Labandeira | |||
| Jorge A Santiago-Blay | |||
| P2860 | cites work | The evolution of developmental gene networks: lessons from comparative studies on holometabolous insects | Q37042448 |
| Identification and function of Abdominal-A in the silkworm, Bombyx mori | Q42025846 | ||
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| Homeotic genes of the Bithorax complex repress limb development in the abdomen of the Drosophila embryo through the target gene Distal-less | Q47072865 | ||
| Phylogenomic insights into the cambrian explosion, the colonization of land and the evolution of flight in arthropoda | Q47179002 | ||
| Expression patterns of the homeotic genes Scr, Antp, Ubx, and abd-A during embryogenesis of the cricket Gryllus bimaculatus. | Q51532672 | ||
| Direct integration of Hox and segmentation gene inputs during Drosophila development. | Q52086921 | ||
| Saturniid and Sphingid Caterpillars: Two Ways to Eat Leaves | Q56211492 | ||
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| The earliest holometabolous insect from the Carboniferous: a “crucial” innovation with delayed success (Insecta Protomeropina Protomeropidae) | Q58290361 | ||
| Evolution of insect abdominal appendages: are prolegs homologous or convergent traits? | Q28204592 | ||
| Phylogenetic distribution of extant richness suggests metamorphosis is a key innovation driving diversification in insects | Q28655073 | ||
| The Hox genes Ultrabithorax and abdominal-A specify three different types of abdominal appendage in the springtail Orchesella cincta (Collembola). | Q28659636 | ||
| A Carboniferous insect gall: insight into early ecologic history of the Holometabola | Q28776119 | ||
| Phylogenomics resolves the timing and pattern of insect evolution | Q29038108 | ||
| The origins of insect metamorphosis | Q33876822 | ||
| Diversity of developmental patterns in achelate lobsters-today and in the Mesozoic | Q34977823 | ||
| The earliest known holometabolous insects | Q35019327 | ||
| Distinct roles of the homeotic genes Ubx and abd-A in beetle embryonic abdominal appendage development | Q35685618 | ||
| Insect appendages and comparative ontogenetics. | Q36236374 | ||
| Analysis of the Tribolium homeotic complex: insights into mechanisms constraining insect Hox clusters | Q36538535 | ||
| Organization of the Hox gene cluster in the grasshopper, Schistocerca gregaria | Q36687020 | ||
| P2507 | corrigendum / erratum | Erratum to: Life habits, hox genes, and affinities of a 311 million-year-old holometabolan larva | Q28597164 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 208 | |
| P577 | publication date | 2015-09-29 | |
| P1433 | published in | BMC Evolutionary Biology | Q13418959 |
| P1476 | title | Life habits, hox genes, and affinities of a 311 million-year-old holometabolan larva | |
| P478 | volume | 15 |
| Q91842948 | An unusual 100-million-year old holometabolan larva with a piercing mouth cone |
| Q106698662 | Cretaceous mantid lacewings with specialized raptorial forelegs illuminate modification of prey capture (Insecta: Neuroptera) |
| Q28597164 | Erratum to: Life habits, hox genes, and affinities of a 311 million-year-old holometabolan larva |
| Q57276931 | New fossil insects from the Anisian (Lower to Middle Muschelkalk) from the Central European Basin (Germany and The Netherlands) |
| Q52706048 | Phanerozoic pO2 and the early evolution of terrestrial animals. |
| Q90595280 | Recalibration of the insect evolutionary time scale using Monte San Giorgio fossils suggests survival of key lineages through the End-Permian Extinction |
| Q28604025 | The evolutionary convergence of mid-Mesozoic lacewings and Cenozoic butterflies |
| Q41890915 | The presumed oldest flying insect: more likely a myriapod? |
| Q52633908 | The tracheal system in post-embryonic development of holometabolous insects: a case study using the mealworm beetle. |
| Q89459449 | Untangling the Gordian knot-further resolving the super-species complex of 300-million-year-old xiphosurids by reconstructing their ontogeny |
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