Literature Cited

(1) Brocks, J. P. 1997. Amphibian limb regeneration: rebuilding a complex structure. Science 276:81-87.

(2) Bryant, S., D. Gardiner, S. Roy, and M. Carlson. August 1998. Lab for Studies of Regeneration and Deformed Frogs. <http://darwin.bio.uci.edu/~mrjc/index.html>. Accessed 2000 September 10.

(3) Christoffersen, H. Amphibian Limb Regeneration. Cell and Develompemtal Biology Online. <http://www.uoguelph.ca/zoology/devobio/210labs/regen1.html>. Accessed 2000 September 10.

(4) Corcoran, J. P., and P. Ferretti. 1999. RA regulation of keratin expression and myogenesis suggests different ways of regenerating muscle in adult amphibian limbs. Journal of Cell Science 112:1385-1394.

(5) Gardiner, D. M., B. Blumberg, Y. Komine, and S. V. Bryant. 1995. Regulation of HoxA expression in developing and regenerating axolotl limbs. Development 121:1731-1741.

(6) Hill, D. S., C. W. Ragsdale Jr., and J. P. Brockes. 1993. Isoform-specific immunological detection of newt retinoic acid receptor *1 in normal and regenerating limbs. Development 117:937-945.

(7) Lanza, B., S. Vanni, and A. Nistri. 1992. Salamanders and Newts. Pp. 60-75. In H. G. Cogger and R. G. Zweifel, (eds.). Reptiles and Amphibians. Smithmark Publishers, New York, NY.

(8) Mullen, L. M., S.V. Bryant, M.A. Torok, B. B. Blumberg, and D. M. Gardiner. Nerve dependency of regeneration: the role of Distal-less and FGF signaling in amphibian limb regeneration. Development 122:3487-3497.

(9) O'Callaghan, J. 2000. Need a New Arm? Look Newt, Researchers say Humans could grow back lost limbs just like a newt if, as some researchers believe, cells can be reminded how to regenerate. (red spotted newts). In A. Salzberg (ed.), x5245@erols.com. Herp Digest, Vol. 1, Issue 8.

(10) Roy, S., D. M. Gardiner, and S. V. Bryant. 2000. Vaccinia as a tool for functional analysis in regenerating limbs: ectopic expression of Shh. Developmental Biology 218:199-205.

(11) Simon, H., R. Kittappa, P. A. Khan, C. Tsilfidis, R. A. Liversage, and S. Oppenheimer. 1997. A novel family of T-box genes in urodele amphibian limb development and regeneration: candidate genes involved in vertebrate forelimb/hindlimb patterning. Development 124:1355-1366.

(12) Simon, H., and C. J. Tabin. 1993. Analysis of Hox-4.5 and Hox-3.6 expression during newt limb regeneration: differential regulation of paralogous Hox genes suggest different roles for different members of different Hox clusters. Development 117:1397-1407.

(13) Stebbins, R. C., and N. W. Cohen. 1995. A Natural History of Amphibians. Princeton University Press, Princeton, NJ.

(14) Travis, J. 1997 November 1. Science News Online. Starting Over. <http://www.sciencenews.org/sn_arc97/11_1_97/bob1.htm>. Accessed 2000 September 10.

(15) Tsonis, P.A. 1996. Limb Regeneration. Cambridge University Press, New York, NY.

(16) UniSci. 1999 April 28. Seeking the Molecular Basis of Limb Regeneration. <http://unisci.com/stories/19992/0428992.htm>. Acessed 2000 September 10.

(17) Wang, L., M. A. Marchionni, and R. A. Tassava. 2000. Cloning and neuronal expression of a type III newt neuregulin and rescue of denervated, nerve-dependent newt limb blastemas by rhGGF2. Journal of Neurobiology 43:150-158.

Articles from Development and Journal of Cell Science were accessed from the Company of Biologists Limited at <http://www.biologists.com/>.

 

Back to main page