J. J. Bitgood scite author profile

We have analyzed a new limb mutant in the chicken that we nameoligozeugodactyly (ozd). The limbs of this mutant have a longitudinal postaxial defect, lacking the posterior element in the zeugopod(ulna/fibula) and all digits except digit 1 in the leg. Classical recombination experiments show that the limb mesoderm is the defective tissue layer in ozd limb buds. Molecular analysis revealed that theozd limbs develop in the absence of Shh expression, while all other organs express Shh and develop normally. NeitherPtc1 nor Gli1 are detectable in mutant limb buds. However,Bmp2 and dHAND are expressed in the posterior wing and leg bud mesoderm, although at lower levels than in normal embryos. Activation ofHoxd11-13 occurs normally in ozd limbs but progressively declines with time. Phase III of expression is more affected than phase II,and expression is more severely affected in the more 5′ genes. Interestingly, re-expression of Hoxd13 occurs at late stages in the distal mesoderm of ozd leg buds, correlating with formation of digit 1. Fgf8 and Fgf4 expression are initiated normally in the mutant AER but their expression is progressively downregulated in the anterior AER. Recombinant Shh protein or ZPA grafts restore normal pattern toozd limbs; however, retinoic acid fails to induce Shh in ozdlimb mesoderm. We conclude that Shh function is required for limb development distal to the elbow/knee joints, similar to the Shh-/-mouse. Accordingly we classify the limb skeletal elements as Shh dependent or independent, with the ulna/fibula and digits other than digit 1 in the leg being Shh dependent. Finally we propose that the ozd mutation is most likely a defect in a regulatory element that controls limb-specific expression of Shh.

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International System for Standardized Avian Karyotypes (ISSAK): standardized banded karyotypes of the domestic fowl (Gallus domesticus)

Ladjali-Mohammedi

Bitgood

Tixier‐Boichard

et al. 1999

Cytogenet Genome Res

119

107

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ABCA1 Is Essential for Efficient Basolateral Cholesterol Efflux during the Absorption of Dietary Cholesterol in Chickens

Mulligan

Flowers

Tebon

et al. 2003

Journal of Biological Chemistry

111

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The ATP-binding cassette transporter A1 (ABCA1) participates in the efflux of cholesterol from cells. It remains unclear whether ABCA1 functions to efflux cholesterol across the basolateral or apical membrane of the intestine. We used a chicken model of ABCA1 dysfunction, the Wisconsin hypoalpha mutant (WHAM) chicken, to address this issue. After an oral gavage of radioactive cholesterol, the percentage appearing in the bloodstream was reduced by 79% in the WHAM chicken along with a 97% reduction in the amount of tracer in high density lipoprotein. In contrast, the percentage of radioactive cholesterol absorbed from the lumen into the intestine was not affected by the ABCA1 mutation. Liver X receptor (LXR) agonists have been inferred to decrease cholesterol absorption through activation of ABCA1 expression. However, the LXR agonist T0901317 decreased cholesterol absorption equally in both wild type and WHAM chickens, indicating that the effect of LXR activation on cholesterol absorption is independent of ABCA1. The ABCA1 mutation resulted in accumulation of radioactive cholesterol ester in the intestine and the liver of the WHAM chicken (5.0-and 4.4-fold, respectively), whereas biliary lipid concentrations were unaltered by the WHAM mutation. In summary, ABCA1 regulates the efflux of cholesterol from the basolateral but not apical membrane in the intestine and the liver.

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Chicken genome mapping: a new era in avian genetics

Bumstead²,

et al. 1995

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Constitutive Activation of Sonic Hedgehog Signaling in the Chicken Mutant talpid2: Shh-Independent Outgrowth and Polarizing Activity

Caruccio

Martínez‐López

Harris

et al. 1999

Developmental Biology

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We have examined the developmental properties of the polydactylous chicken mutant, talpid(2). Ptc, Gli1, Bmp2, Hoxd13, and Fgf4 are expressed throughout the anteroposterior axis of the mutant limb bud, despite normal Shh expression. The expression of Gli3, Ihh, and Dhh appears to be normal, suggesting that the Shh signaling pathway is constitutively active in talpid(2) mutants. We show that preaxial talpid(2) limb bud mesoderm has polarizing activity in the absence of detectable Shh mRNA. When the postaxial talpid(2) limb bud (including all Shh-expressing cells) is removed, the preaxial cells reform a normal-shaped talpid(2) limb bud (regulate). However, a Shh-expressing region (zone of polarizing activity) does not reform; nevertheless Fgf4 expression in the apical ectodermal ridge is maintained. Such reformed talpid(2) limb buds develop complete talpid(2) limbs. After similar treatment, normal limb buds downregulate Fgf4, the preaxial cells do not regulate, and a truncated anteroposterior deficient limb forms. In talpid(2) limbs, distal outgrowth is independent of Shh and correlates with Fgf4, but not Fgf8, expression by the apical ectodermal ridge. We propose a model for talpid(2) in which leaky activation of the Shh signaling pathway occurs in the absence of Shh ligand.

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J. J. Bitgood

The chickoligozeugodactyly(ozd) mutant lacks sonic hedgehog function in the limb

International System for Standardized Avian Karyotypes (ISSAK): standardized banded karyotypes of the domestic fowl (Gallus domesticus)

ABCA1 Is Essential for Efficient Basolateral Cholesterol Efflux during the Absorption of Dietary Cholesterol in Chickens

Chicken genome mapping: a new era in avian genetics

Constitutive Activation of Sonic Hedgehog Signaling in the Chicken Mutant talpid2: Shh-Independent Outgrowth and Polarizing Activity

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