1 2 3 4 5 6 7 8

Literature Cited

Downie, SA and Newman, SA. 1994. Morphogenic differences between fore and hind limb
precartilage mesenchyme: Relation to mechanisms of skeletal pattern formation.
Dev. Biol. 62: 195-208.
Downie, SA and Newman, SA. 1995. Different roles for fibronectin in the generation of fore
and hind limb precartilage condensations. Dev. Biol. 172: 519-530.
Gilbert, S.F. 1997. Developmental Biology, 5th ed. Sinauer Associates, Inc. Publishers.
Sunderland, MA, p. 351-358 & 722-727.
Hall, B.K. and T. Miyake. 2000. All for one and one for all: condensations and the initiation of
skeletal development.BioEssays 22:138-147.
Smith R. 1998. The differences in the inductive effects of various growth factors on cartilage
node formation in chick wing mesenchymal cells vs. leg mesenchymal cells.
(Bio 306 final paper).
Wedden S.E., M.R. Lewin-Smith, and C. Tickle. 1986. The patterns of chondrogenesis of cells
from facial primordia of chick embryos in micromass culture. Developmental Biology
117: 71-82.

Protocol References

Ahrens et al. (1977). Stage-related capacity for limb chondrogenesis in cell culture.
Dev. Biol. 60: 69-82.
San Antonio et al (1992). Polyionic regulation of cartilage development: promotion of
chondrogenesis in vitro by polylysine is associated with altered glycosaminoglycan
biosynthesis and distribution.Dev. Biol. 152: 323-335.
San Antonio and Tuan (1986). Chondrogenesis of limb bud mesenchyme in vitro: stimulation
by cations. Dev. Biol. 115: 313-324.
Tin-Xin Jiang, Jian-Ru Yi, Shao-Yao Ying, Cheng-Ming Chuong. (1993). Activin enhances
chondrogenesis of limb bud cells: stimulation of precartiligenous mesenchymal
condensations and expression of NCAM. Dev. Biol. 155: 545-557.

©Cebra-Thomas, 2000

Last Modified: 2 May 2000

[Lab Protocols | Students | Cebra-Thomas | Course | Links ]