Evolution of a Novel Appendage Ground Plan in Water Striders Is Driven by Changes in the Hox Gene Ultrabithorax Abderrahman Khila1,2, Ehab Abouheif1, Locke Rowe2* 1 Department of Biology, McGill University, Montreal, Que

First Page		Document Content
Date: 2014-06-10 10:16:45 Animal locomotion Ultrabithorax Biology Genetics Hox gene Zoology Bithorax complex Halteres Arthropod leg Human leg Homeotic selector gene		Evolution of a Novel Appendage Ground Plan in Water Striders Is Driven by Changes in the Hox Gene Ultrabithorax Abderrahman Khila1,2, Ehab Abouheif1, Locke Rowe2* 1 Department of Biology, McGill University, Montreal, Que Add to Reading List Source URL: biology.mcgill.ca Download Document from Source Website File Size: 2,44 MB Share Document on Facebook

	Evolution of a Novel Appendage Ground Plan in Water Striders Is Driven by Changes in the Hox Gene Ultrabithorax Abderrahman Khila1,2, Ehab Abouheif1, Locke Rowe2* 1 Department of Biology, McGill University, Montreal, Que DocID: 1lsSt - View Document
	letters to nature advance online publication .............................................................. DocID: 14DIT - View Document
	PII: [removed]90663-Y DocID: 10VRz - View Document
	Proc. Nati. Acad. Sci. USA Vol. 88, pp[removed], January 1991 Developmental Biology The Polycomb protein shares a homologous domain with a heterochromatin-associated protein of Drosophila DocID: 10rzv - View Document