Long-Range Allosteric Interactions between the Folate and Methionine Cycles Stabilize DNA Methylation Reaction Rate
Publication
, Journal Article
Nijhout, HF; Reed, MC; Anderson, DF; Mattingly, JC; James, SJ; Ulrich, CM
Published in: Epigenetics
2006
Duke Scholars
Published In
Epigenetics
Publication Date
2006
Volume
1
Start / End Page
115 / 115
Related Subject Headings
- Models, Theoretical
- Models, Biological
- Methyltransferases
- Methionine
- Humans
- Folic Acid
- Developmental Biology
- DNA Methylation
- Animals
- Allosteric Regulation
Citation
APA
Chicago
ICMJE
MLA
NLM
Nijhout, H. F., Reed, M. C., Anderson, D. F., Mattingly, J. C., James, S. J., & Ulrich, C. M. (2006). Long-Range Allosteric Interactions between the Folate and Methionine Cycles Stabilize DNA Methylation Reaction Rate. Epigenetics, 1, 115–115.
Nijhout, H Frederik, Michael C. Reed, David F. Anderson, Jonathan C. Mattingly, S Jill James, and Cornelia M. Ulrich. “Long-Range Allosteric Interactions between the Folate and Methionine Cycles Stabilize DNA Methylation Reaction Rate.” Epigenetics 1 (2006): 115–115.
Nijhout HF, Reed MC, Anderson DF, Mattingly JC, James SJ, Ulrich CM. Long-Range Allosteric Interactions between the Folate and Methionine Cycles Stabilize DNA Methylation Reaction Rate. Epigenetics. 2006;1:115–115.
Nijhout, H. Frederik, et al. “Long-Range Allosteric Interactions between the Folate and Methionine Cycles Stabilize DNA Methylation Reaction Rate.” Epigenetics, vol. 1, 2006, pp. 115–115.
Nijhout HF, Reed MC, Anderson DF, Mattingly JC, James SJ, Ulrich CM. Long-Range Allosteric Interactions between the Folate and Methionine Cycles Stabilize DNA Methylation Reaction Rate. Epigenetics. 2006;1:115–115.
Published In
Epigenetics
Publication Date
2006
Volume
1
Start / End Page
115 / 115
Related Subject Headings
- Models, Theoretical
- Models, Biological
- Methyltransferases
- Methionine
- Humans
- Folic Acid
- Developmental Biology
- DNA Methylation
- Animals
- Allosteric Regulation