Biomedical Engineering Reference
In-Depth Information
References
1. Rattan SI (2008) Increased molecular damage
and heterogeneity as the basis of ageing. Biol
Chem 389:267-272
2. Grune T, Jung T, Merker K, Davies KJA
(2004) Decreased proteolysis caused by pro-
tein aggeregates, inclusion bodies, plaques,
lipofuscin, ceroid, and “aggresomes” during
oxidative stress, ageing, and disease. Int J
Biochem Cell Biol 36:2519-2530
3. Hipkiss A (2006) Accumulation of altered
proteins and ageing: causes and effects. Exp
Gerontol 41:464-473
4. Fenton WA, Horwich AL (1997) GroEL-
mediated
15. Hartl FU, Hayer-Hartl M (2002) Molecular
chaperones in the cytosol: from nascent chain
to folded protein. Science 295:1852-1858
16. Pelham HR (1986) Speculations on the func-
tions of the major heat shock and glucose-
regulated proteins. Cell 46:959-961
17. Frydman J (2001) Folding of newly translated
proteins in vivo: the role of molecular chaper-
ones. Annu Rev Biochem 70:603-647
18. Parsell DA, Kowal AS, Singer MA, Lindquist
S (1994) Protein disaggregation mediated
by heat-shock protein Hsp104. Nature 372:
475-478
19. Ellis RJ, Hartl FU (1996) Protein folding in
the cell: Competing models of chaperonin
function. FASEB J 10:20-26
20. Shtilerman M, Lorimer GH, Englander SW
(1999) Chaperonin function: folding by
forced unfolding. Science 284:822-825
21. Teter SA, Houry WA, Ang D, Tradler T,
Rockabrand D, Fischer G, Blum P,
Georgopoulos C, Hartl FU (1999)
Polypeptide flux through bacterial Hsp70:
DnaK cooperates with trigger factor in chap-
eroning nascent chains. Cell 97:755-765
22. Barnhart MM, Pinkner JS, Soto GE, Sauer
FG, Langermann S, Waksman G, Frieden C,
Hultgren SJ (2000) PapD-like chaperones
provide the missing information for folding of
pilin proteins. Proc Natl Acad Sci USA
97:7709-7714
23. Sauer FG, Futterer K, Pinkner JS, Dodson
KW, Hultgren SJ, Waksman G (1999)
Structural basis of chaperone function and
pilus biogenesis. Science 285:1058-1061
24. Krojer T, Sawa J, Schafer E, Saibil HR,
Ehrmann M, Clausen T (2008) Structural
basis for the regulated protease and chaperone
function of DegP. Nature 453:885-890
25. Balch WE, Morimoto RI, Dillin A, Kelly JW
(2008) Adapting proteostasis for disease
intervention. Science 319:916-919
26. Yates FE (1994) Order and complexity in
dynamical systems: homeodynamics as a gen-
eralized mechanics for biology. Math Comput
Model 19:49-74
27. Schubert U, Anton LC, Gibbs J, Norbury
CC, Yewdell JW, Bennink JR (2000) Rapid
degradation of a large fraction of newly syn-
thesized proteins by proteasomes. Nature
404:770-774
28. Schroder M (2006) The unfolded protein
response. Mol Biotechnol 34:279-290
29. Fink AL (2005) Natively unfolded proteins.
Curr Opin Struct Biol 15:35-41
protein
folding.
Protein
Sci
6:743-760
5. Glickman MH, Ciechanover A (2002) The
ubiquitin-proteasome proteolytic pathway:
destruction for the sake of construction.
Physiol Rev 82:373-428
6. Terman A, Gustafsson B, Brunk U (2007)
Autophagy, organelles and ageing. J Pathol
211:134-143
7. Perez VI, Buffenstein R, Masamsetti V,
Leonard S, Salmon AB, Mele J, Andziak B,
Yang T, Edrey Y, Friguet B, Ward W,
Richardson A, Chaudhuri A (2009) Protein
stability and resistance to oxidative stress are
determinants of longevity in the longest-living
rodent, the naked mole-rat. Proc Natl Acad
Sci USA 106:3059-3064
8. Salmon AB, Leonard S, Masamsetti V, Pierce
A, Podlutsky AJ, Podlutskaya N, Richardson
A, Austad SN, Chaudhuri AR (2009) The
long lifespan of two bat species is correlated
with resistance to protein oxidation and
enhanced protein homeostasis. FASEB J
23:2317-2326
9. Anfinsen CB (1973) Principles that govern the
folding of protein chains. Science 181:223-230
10. Ellis RJ, Minton AP (2003) Cell biology: join
the crowd. Nature 425:27-28
11. Uversky VN (2002) What does it mean to be
natively unfolded? Eur J Biochem 269:2-12
12. Uversky VN (2003) Protein folding revisited.
A polypeptide chain at the folding-misfolding-
nonfolding cross-roads: which way to go? Cell
Mol Life Sci 60:1852-1871
13. Dinner AR, Sali A, Smith LJ, Dobson CM,
Karplus M (2000) Understanding protein
folding via free-energy surfaces from theory
and
experiment.
Trends
Biochem
Sci
25:331-339
14. Ellis RJ (1993) The general concept of molec-
ular chaperones. Philos Trans R Soc Lond B
Biol Sci 339:257-261
Search WWH ::
Custom Search