Silencing of an abdominal Hox gene during early development is correlated with limb development in a crustacean trunk

Cheryl C. Hsia; Adam C. Paré; Michael Hannon; Matthew Ronshaugen; William McGinnis

doi:10.1111/j.1525-142X.2010.00399.x

Silencing of an abdominal Hox gene during early development is correlated with limb development in a crustacean trunk

Cheryl C. Hsia, Adam C. Paré, Michael Hannon, Matthew Ronshaugen, William McGinnis

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Abstract

We tested whether Artemia abd-A could repress limbs in Drosophila embryos, and found that although abd-A transcripts were produced, ABD-A protein was not. Similarly, developing Artemia epidermal cells showed expression of abd-A transcripts without accumulation of ABDA protein. This finding in Artemia reveals a new variation in Hox gene function that is associated with morphological evolution. In this case, a HOX protein expression pattern is completely absent during early development, although the HOX protein is expressed at later stages in the central nervous system in a "homeotic-like" pattern. The combination of an absence of ABD-A protein expression in the Artemia limb primordia and the weak repressive function of Artemia UBX protein on the limb-promoting gene Dll are likely to be two reasons why homonomous limbs develop throughout the entire Artemia trunk. © 2010 Wiley Periodicals, Inc.

Original language	English
Pages (from-to)	131-143
Number of pages	12
Journal	Evolution and Development
Volume	12
Issue number	2
DOIs	https://doi.org/10.1111/j.1525-142X.2010.00399.x
Publication status	Published - Mar 2010

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title = "Silencing of an abdominal Hox gene during early development is correlated with limb development in a crustacean trunk",

abstract = "We tested whether Artemia abd-A could repress limbs in Drosophila embryos, and found that although abd-A transcripts were produced, ABD-A protein was not. Similarly, developing Artemia epidermal cells showed expression of abd-A transcripts without accumulation of ABDA protein. This finding in Artemia reveals a new variation in Hox gene function that is associated with morphological evolution. In this case, a HOX protein expression pattern is completely absent during early development, although the HOX protein is expressed at later stages in the central nervous system in a {"}homeotic-like{"} pattern. The combination of an absence of ABD-A protein expression in the Artemia limb primordia and the weak repressive function of Artemia UBX protein on the limb-promoting gene Dll are likely to be two reasons why homonomous limbs develop throughout the entire Artemia trunk. {\textcopyright} 2010 Wiley Periodicals, Inc.",

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T1 - Silencing of an abdominal Hox gene during early development is correlated with limb development in a crustacean trunk

AU - Hsia, Cheryl C.

AU - Paré, Adam C.

AU - Hannon, Michael

AU - Ronshaugen, Matthew

AU - McGinnis, William

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AB - We tested whether Artemia abd-A could repress limbs in Drosophila embryos, and found that although abd-A transcripts were produced, ABD-A protein was not. Similarly, developing Artemia epidermal cells showed expression of abd-A transcripts without accumulation of ABDA protein. This finding in Artemia reveals a new variation in Hox gene function that is associated with morphological evolution. In this case, a HOX protein expression pattern is completely absent during early development, although the HOX protein is expressed at later stages in the central nervous system in a "homeotic-like" pattern. The combination of an absence of ABD-A protein expression in the Artemia limb primordia and the weak repressive function of Artemia UBX protein on the limb-promoting gene Dll are likely to be two reasons why homonomous limbs develop throughout the entire Artemia trunk. © 2010 Wiley Periodicals, Inc.

U2 - 10.1111/j.1525-142X.2010.00399.x

DO - 10.1111/j.1525-142X.2010.00399.x

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Silencing of an abdominal Hox gene during early development is correlated with limb development in a crustacean trunk

Abstract

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