Biomedical Engineering Reference
In-Depth Information
54. Kimura M. 1983.
The neutral theory of molecular evolution
. Cambridge UP, Cambridge.
55. Gillooly JF, Allen AP, West GB, Brown JH. 2005. The rate of DNA evolution: effects of body
size and temperature on the molecular clock.
Proc Natl Acad Sci USA
102
:140-145.
56. Beaton MJ, Cavalier-Smith T. 1999. Eukaryotic non-coding DNA is functional: evidence from
the differential scaling of cryptomonad genomes.
Proc Roy Soc London B—Biol Sci
266
:2053-
2059.
57. Cavalier-Smith T. 1980. r- and K-tactics in the evolution of protist developmental systems: cell
and genome size, phenotype diversifying selection, and cell cycle patterns.
Biosystems
12
(1-
2):43-59.
58. Gregory TR. 2001. The bigger the C-value, the larger the cell: genome size and red blood cell
size in vertebrates [review].
Blood Cells Mol Dis
27
:830-843.
59. Gregory TR. 2001. Coincidence, coevolution, or causation? DNA content, cell size, and the C-
value enigma [review].
Biol Rev Camb Philos Soc
76
:65-101.
60. Olmo E, Capriglione T, Odierna G. 1989. Genome size evolution in vertebrates: trends and
constraints [review].
Comp Biochem Physiol B
92
:447-453.
61. Chandler M, Spain M. 2003. Pitfalls to using small animals in preclinical testing are being
eliminated.
Preclinica
1
:1-2.
62. Jain RK. 1996. Delivery of molecular medicine to solid tumors.
Science
271
:1079-1080.
63. West LJ, Pierce CM. Thomas WD. 1962. Lysergic acid diethylamide: its effect on a male
Asiatic elephant.
Science
138
:1100-1103.
64. MacDonald G. 1957.
The epidemiology and control of malaria
. Oxford UP, London.
65. Ancel LW, Levin BR, Richardson AR, Stojilkovic I. 2001.
Two-tiered evolution of Neiserria
meningitis: how within-host ecology and between-host epidemiology expedite phase shifting
.
Santa Fe Institute Working Paper 01-12-079.
66. Ancel LW, Newman MEJ, Martin M, Schrag S. 2002.
Applying network theory to epidemic
intervention: modelling the spread and control of Mycoplasma pneumoniae
. Santa Fe Institute
Working Paper 01-12-078.
67. Campbell SS, Tobler I. 1984. Animal sleep: a review of sleep duration across phylogeny.
Neu-
rosci Biobehav Rev
8
:269-300.
68. Mamelak M. 1997. Neurodegeneration, sleep, and cerebral energy metabolism: a testable hy-
pothesis.
J Geriat Psychiatry Neurol
10
:29-32.
69. Maquet P. 2001. The role of sleep in learning and memory.
Science
294
:1048-1052.
70. Frank MG, Issa NP, Stryker MP. 2001. Sleep enhances plasticity in the developing visual
cortex.
Neuron
30
:275-287.
71. Hoffman KL, McNaughton BL. 2002. Sleep on it: cortical reorganization after-the-fact.
Trends
Neurosci
25
:1-2.
72. Stickgold R, Hobson JA, Fosse R, Fosse M. 2001. Sleep, learning, and dreams: off-line mem-
ory reprocessing.
Science
294
:1052-1057.
73. Tononi G, Cirelli C. 2003. Sleep and synaptic homeostasis: a hypothesis.
Brain Res Bull
62
:143-150.
74. Adam K, Oswald I. 1977. Sleep is for tissue restoration.
J Roy Coll Phys London
11
:376-388.
75. Inoue S, Honda K, Komoda Y. 1995. Sleep as neuronal detoxification and restitution.
Behav
Brain Res
69
:91-96.
76. Moruzzi G. 1966. The functional significance of sleep with particular regard to the brain
mechanisms underlying consciousness. In
Brain and conscious experience
, pp. 345-379. Ed.
JC Eccles, Springer, Berlin.
77.
Reimund E. 1991. Sleep deprivation-induced neuronal damage may be due to nicotinic acid
depletion.
J Med Hypo
34
:275-277.
78.
Reimund E. 1994. The free radical flux theory of sleep.
J Med Hypo
43
:231-233.
79.
Siegel JM. 2003. Why we sleep.
Sci Am
289
:92-97.
80.
Cortopassi GA, Wang E. 1996. There is substantial agreement among interspecies estimates of
DNA repair activity.
Mech Ageing Dev
91
:211-218.