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1 oliferation and differentiation during mouse cartilage development.
2 n, it is unknown whether it functions during cartilage development.
3 ent for Bmp signaling in membranous bone and cartilage development.
4 al expression pattern that corresponded with cartilage development.
5 eal endoderm for NCC survival and pharyngeal cartilage development.
6  (SEMD) is a skeletal dysplasia that affects cartilage development.
7 /PTHrP receptor (PPR), is crucial for normal cartilage development.
8 ost-traumatic OA, reduced pain and increased cartilage development.
9 triuretic peptide (CNP) in the regulation of cartilage development.
10 d aortic arch vessels and at early stages of cartilage development.
11  consistent with its function in ENS and jaw cartilage development.
12 ignaling antagonist that influences bone and cartilage development.
13 alternative splicing switch of exon 2 during cartilage development.
14 mutants with genetically disrupted muscle or cartilage development.
15 equired for correct patterning of pharyngeal cartilage development.
16 ral crest makes them candidate regulators of cartilage development.
17 t may play a role in melanoma metastasis and cartilage development.
18 demonstrate the critical role of perlecan in cartilage development.
19    Ets function is also critical in bone and cartilage development.
20 skeletogenesis, including roles in joint and cartilage development.
21  chondrogenesis and continues throughout the cartilage development.
22 fferent signal transduction pathways pattern cartilage development along these three separate axes.
23 s, Ihh signaling is essential for symphyseal cartilage development and anterior mandibular growth.
24                                              Cartilage development and bone formation was measured by
25   Here we have studied the phases of scleral cartilage development and characterised expression profi
26                Homozygotes showed defects in cartilage development and delayed bone formation with sh
27 direct interzone progeny fates and articular cartilage development and disease.
28 oblasts in mice leads to striking defects in cartilage development and endochondral bone formation.
29 tion experiments indicate that Six2 promotes cartilage development and growth in other body areas and
30 r Indian hedgehog (Ihh) regulates symphyseal cartilage development and growth.
31               We show that miR-140 regulates cartilage development and homeostasis, and its loss cont
32 -140 has a critical and nonredundant role in cartilage development and homeostasis.
33 which is particularly important in postnatal cartilage development and homeostasis.
34 on in the digits demonstrates a link between cartilage development and joint development and is an im
35 sh, ddrgk1 deficiency disrupted craniofacial cartilage development and led to decreased levels of the
36  predominantly by chondrocytes, functions in cartilage development and maintenance, and has growth-in
37 of these genes are associated with articular cartilage development and maintenance, diarthrodial join
38 tern that plays a specific role in articular cartilage development and maintenance.
39 ulate that, in vivo, CD-RAP functions during cartilage development and maintenance.
40      This work links glucose metabolism with cartilage development and provides insight into the fund
41                        SOX9 is essential for cartilage development and subsequent function throughout
42 radation during SOC formation and epiphyseal cartilage development and that its actions are partially
43 at GDF5 is necessary and sufficient for both cartilage development and the restriction of joint forma
44 encode protein products essential for normal cartilage development, and a potential mechanism for the
45 n vitro recapitulated some aspects of native cartilage development, and potentiated the maturation of
46 p3, reveal a role for Wisp3 during zebrafish cartilage development, and suggest that dysregulation of
47 mical properties, and that the mechanisms of cartilage development are extensively conserved--from in
48 ull embryos is a consequence of a failure of cartilage development, as demonstrated by downregulation
49  sources and signaling account for divergent cartilage development between proximal and distal CT reg
50 ind that RA may have a role in early scleral cartilage development but is not likely to be the main f
51         Here, we show that Twist1 suppresses cartilage development by directly inhibiting the transcr
52 07 and p130 in the mouse leads to defects in cartilage development during endochondral ossification,
53 veal an overlapping role for pRB and p107 in cartilage development, endochondral ossification and enc
54 veal an overlapping role for pRB and p107 in cartilage development, endochondral ossification and enc
55 igated for their ability to affect articular cartilage development in a scaffoldless, 3-dimensional c
56 eal deep homology of the genetic program for cartilage development in Bilateria and suggest that acti
57 ir development overlaps with that of sternal cartilage development in chicks and mice.
58 at mTORC1 signaling is activated during limb cartilage development in the mouse embryo.
59 helin 1 (Edn1) signaling, a key regulator of cartilage development is disrupted.
60 omechanics plays a pivotal role in articular cartilage development, pathophysiology, and regeneration
61    RA, Wnts and Bmps have been linked to the cartilage development process and are expressed within t
62 ing evolution, a key regulator of vertebrate cartilage development, SoxE, gained new cis-regulatory s
63 de that Phd2 is a key regulator of articular cartilage development that acts by inhibiting the differ
64                                Ihh regulates cartilage development through PTHrP-independent pathways
65 ascular endothelial growth factor (VEGFA) in cartilage development, we conditionally knocked out Vegf
66 , while studying the role of beta-catenin in cartilage development, we found that its conditional del
67         To understand its role in epiphyseal cartilage development, we generated transgenic mice with
68 n the direct versus indirect roles of Ihh in cartilage development, we have used the Cre-loxP approac

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