Problems and paradigms: Hoemeobox genes in vertebrate evolution

## Abstract In describing the flawless regularity of developmental processes and the correlation between changes at certain genetic loci and changes in morphology, biologists frequently employ two metaphors: that genes ‘control’ development, and that genomes embody ‘programs’ for development. Altho

One of the most remarkable recent findings in developmental biology has been the colinear and homologous relationships shared between the Drusuphila HOM-C and vertebrate Hox homeobox gene complexes. These relationships pose the question of the functional significance of colincarity and its molecular

Preferential expression of the maternally derived X chromosome in the mouse yolk sac. Cell 12, 18 TAKAGI, N. & SASAKI, M. (1975). Preferential inactivation of the paternally derived X chromosome in the extraembryonic membranes of the mouse. Nature 256,640-641. 19 HARPER, M. I., FOSTEN, M. & MONK, M.

## Abstract The vast quantities of publicly available DNA sequencing data and genome resources are enabling biologists to investigate age‐old problems in biology that were not addressable previously. In this review, we discuss how comparative genomics is practiced and how the data can be used to ma

## Abstract Embryonic modularity and functional modularity are two principles of brain organization. Embryonic modules are histogenetic fields that are specified by position‐dependent expression of patterning genes. Within each embryonic module, secondary and higher‐level pattern formation takes pl

## Abstract Tetrapods have two distinct nasal chemosensory systems, the main olfactory system and the vomeronasal system (VNS). Defined by certain morphological components, the main olfactory system is present in all groups of vertebrates, while the VNS is found only in tetrapods. Previous attempts