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  1. Molecular biology of embryonic development: How far have we come in the last ten years?Eric H. Davidson - 1994 - Bioessays 16 (9):603-615.
    The successes of molecular developmental biology over the last ten years have been particularly impressive in those directions favored by its major paradigms. New technologies have both guided and been guided by the progress of the field. I review briefly some of the major insights into embryonic development that have derived from research in four specific areas: early embryogenesis of various forms; “pattern formation”; evolutionary conservation of regulatory elements; and spatial mechanisms of gene regulation. There remain many major problem areas, (...)
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  • Butterfly wings: Colour patterns and now gene expression patterns.Vernon French & Antonia Monteiro - 1994 - Bioessays 16 (11):789-791.
    The particular fascination of butterfly wings for developmental biologists (and others) lies in their spectacular array of colour patterns. The evolutionary and developmental relationships between these patterns have been analysed and we know something of the cell interactions involved in their formation(1). Now butterfly homologues of Drosophila wing‐patterning genes have been identified, and their expression patterns offer the first clues to the molecular mechanisms which specify wing colour patterns(2).
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  • Axes, boundaries and coordinates: The ABCs of fly leg development.Lewis I. Held - 1995 - Bioessays 17 (8):721-732.
    Recent studies of gene expression in the developing fruitfly leg support a model – Meinhardt's Boundary Model – which seems to contradict the prevailing paradigm for pattern formation in the imaginal discs of Drosophila – the Polar Coordinate Model. Reasoning from geometric first principles, this article examines the strengths and weaknesses of these hypotheses, plus some baffling phenomena that neither model can comfortably explain. The deeper question at issue is: how does the fly's genome encode the three‐dimensional anatomy of the (...)
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