Team:UC Davis/Contacts References
From 2009.igem.org
1.
Ze-Chun Yuan, Pu Liu, Panatda
Saenkham, Kathleen Kerr, and Eugene W. Nester (2007). Transcriptome
Profiling
and Fuctional Analysis of Agrobacterium
tumefaciens Reveals a General
Conserved
Response to Acidic Conditions (pH 5.5) and a Complex Acid-Mediated
Signaling
Involved in Agrobacterium-Plant
Interactions. Journal of
Bacteriology. Jan. 208, p. 494-507.
2.Luoping Li, Yonghui Jia,
Qingming Hou, Trevor C. Charles, Eugene
W.
Nester, and Shen Q. Pan. (2002). A global pH sensor: Agrobacterium
sensor
protein ChvG regulates acid-inducible genes on its two chromosomes and
Ti
plasmid. PNAS.
(99)19.12369-12374
3.
Nicholas J. Mantis and Stephen C. Winans.
(1993),
The
Chromosomal
Response Regulatory Gene chvI
of Agrobacterium tumefaciens Complements
an
Escherichia coli
phoB Mutation and Is Required
for Virulence. J.
Microbiology. Oct. 1993, p.6626-6636.
4. Trevor C. Charles and Eugene
W. Nester. (1993). A
Chromosomally
Encoded Two-Component Sensory Transduction System Is Required for
Virulence of
Agrobacterium tumefaciens. J. Bacteriology. Oct. 1993,
p. 6614-6625.
5.Jeffrey
M. Skerker, Barrett S. Perchuk, Albert Siryaporn, Emma A.
Lubin,
Orr Ashenberg, Mark Goulian and Michael T. Laub. (2008). Rewiring
the
Specificity of Two-Component Signal Transduction Systems.
6.Takashi
Aoyama, Mituru Takanami, Kozo Makino, and Atsuhiro
Oka. (1991). Cross-talk
between the virulence and
phosphate regulons of Agrobacterium
tumefaciens caused by an unusual
interaction of the transcriptional activator with a regulatory DNA
element. Mol. Gen. Genet.
(1991) 227, p. 385-390.
7.
Edwin van Bloois. Remko T. Winter. Dick B. Janssen, Marco W. Fraaije.
2009,
Export of functional Streptomyces coelicolor alditol oxidase to
the
periplasm or cell surface of Escherichia coli and its
application in
whole-cell biocatalysis. (2009). Appl. Microbiol. Biotechnol.
83. p. 679-687.
8.Dariusz
Stepniak, Liesbeth Spaenij-Dekking, Cristina Mitea, Martine
Moester, Arnoud de
Ru, Renee Baak-Pablo, Peter van Veelen, Luppo Edens and Frits Koning. (2006).
Highly efficient gluten degradation with a newly identifies prolyl
endoprotease:
implications for celiac disease. Am J Physiol Gastrointest Liver
Physiol. 291: G621-G629, 2006.
9. Heung-Chae
Junge, Joon-Hyun Park, Seung-Hwan Park, Jean-Michel Lebeault, and
Jae-Gu Pan.
(1998). Expression
of carboxymethylcellulase
on the Surface of Escerichia coli
using Pseudomonas syringae
ice
nucleation
protein. Enzyme and
Microbial Technology. 22: 348-354, 1998.
10. Michael Klose, Anja
Störiko, York-Dieter Stierhof, Ingrid
Hindennach,
Bettina Mutschler, and Ulf Henning. (1993). Membrane Assembly of
the Outer
Membrane Protein OmpA of Escherichia
coli. Journal of
Biological Chemistry. (268) 34, pp. 25664-25670.
11.The Celiac Site. (2009).
http://digestive.niddk.nih.gov/ddiseases/pubs/celiac/
12.Jonathan Gass, Michael T.
Bethune, Matthew Siegel, Andrew
Spencer, and
Chaitan Khosla. (2007). Combination Enzyme Therapy for Gastric
Digestion of
Dietary Gluten in Patients With Celiac Sprue. Gastroenterology. 2007;
133: 472-480.
13.Roland Freud, Michael Klose,
and Ulf Henning. (1989). Export
and
Sorting of the Escherichia coli Outer Membrane Protein OmpA. Journal of Bioenergetics and
Biomembranes. 22 (3). pp.441-449.
14.National Digestive Diseases
Information Clearinghouse (NDDIC). September
2008. http://digestive.niddk.nih.gov/ddiseases/pubs/celiac/
15. Se Whan Park, Moon
Gyu Chung, Hwa Young Lee, Jeong Yoon Kim, and Young Ha Rhee.
(2008). Stable expression and secretion of the polyhydroxybutyrate
depolymerase of Paucimonas lemoignei in Escherichia
coli.
J. Microbiology. 46(6). pp. 662-669.