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B anatomy

Waga, S., and Stillman, B., Anatomy of a DNA replication fork revealed by reconstitution of SV40 DNA replication in vitro. Nature. 369 207-212, 1994. [Pg.675]

Goldstein B. Anatomy of the peripheral nervous system. PhysMed Rehabil Clin NAm. 2001 12 207-236. [Pg.261]

Sutic, D.D., Sinclair, J.B. Anatomy and Physiology of Diseased Plants. Boca Raton, USA CRC Press 1991. [Pg.100]

CdS and a TOPO, and a schematic, (b) Anatomy of organically capped quantum dots. [Pg.15]

Figure 1.3 Chromatographic peaks, (a) The concept of retention time. The hold-up time is the retention time of an unretained compound in the column (the time it took to make the trip through the column) (b) Anatomy of an ideal peak (c) Significance of the three basic parameters and a summary of the features of a Gaussian curve (d) An example of a real chromatogram showing that while travelling along the column, each analyte is assumed to present a Gaussian distribution of concentration. Figure 1.3 Chromatographic peaks, (a) The concept of retention time. The hold-up time is the retention time of an unretained compound in the column (the time it took to make the trip through the column) (b) Anatomy of an ideal peak (c) Significance of the three basic parameters and a summary of the features of a Gaussian curve (d) An example of a real chromatogram showing that while travelling along the column, each analyte is assumed to present a Gaussian distribution of concentration.
Raynaud, C., Bonicel, P., Rigal, D., Kantelip, B. Anatomie de la comee. In Encyclopedie Medico-Chimrgicale -Ophtalmologie, p. 7. Elsevier, Paris. 21-003-A-10, (1996)... [Pg.58]

Rapatz, G.L., Menz, L.J., Luyet, B.J. (1966). Anatomy ofthe freezing process in biological materials. [Pg.383]

Terashima, I., Wong, S.D., Osmond, C.B. Farquhar, G.D. (1988). Characterisation of non-uniform photosynthesis induced by abscisic acid in leaves having different mesophyll anatomies. Plant Cell Physiology, 29 385-94. [Pg.68]

Figure 7.2. Schematics of bone anatomy (a) the structure of a long bone demonstrating the distribution of the two different tissue structures, cortical and cancellous bone, and (b) the cells present in bone osteoblasts, bone-forming cells found on surfaces osteocytes, bone cells embedded in the mineralised matrix and osteoclasts, bone-removing cells. Figure 7.2. Schematics of bone anatomy (a) the structure of a long bone demonstrating the distribution of the two different tissue structures, cortical and cancellous bone, and (b) the cells present in bone osteoblasts, bone-forming cells found on surfaces osteocytes, bone cells embedded in the mineralised matrix and osteoclasts, bone-removing cells.
Delmon, B. "Recent Approaches To The Anatomy and Physiology of Cobalt Molybdenum Hydrodesulfurization Catalysts" in preprints of Third International Conference on the Chemistry and Uses of Molybdenum, Univ. of Michigan, Ann Arbor, 1979 (Climax Molybdenum Company). [Pg.434]

Moore, R.Y. The anatomy of central serotonergic neuron systems in the rat brain. In Jacobs, B.L., and Gelperin, A., eds. Serotonin Neurotransmission and Behavior. Cambridge, MA MIT Press, 1981. pp. 35-71. [Pg.301]

Fig. 2.6 Rostral nasal anatomy of Honey Possum (Tarsipes rostratus) showing (a) section levels and (b) TS at level 4 naso-palatine papilla with taste-buds (TB), gustatory chemoreceptors facing lumen of N-Pd (incisive duct, Id) (from Kratzing, 1987). Fig. 2.6 Rostral nasal anatomy of Honey Possum (Tarsipes rostratus) showing (a) section levels and (b) TS at level 4 naso-palatine papilla with taste-buds (TB), gustatory chemoreceptors facing lumen of N-Pd (incisive duct, Id) (from Kratzing, 1987).
Eales N.B. (1926). The anatomy of the head of a foetal African elephant. Phil Trans Roy Soc Edin LIV(III), 491-547. [Pg.202]

Hart B.L., Hart L. and Maina J.N. (1988). Alteration in vomeronasal system anatomy in Alcelaphine antelopes correlation with alteration in chemosensory investigation. Physiol Behav 42, 155-162. [Pg.210]

Hummel T., Kiihnau D., Knecht M., Abolmaali N. and Huttenbrink K.B. (1999). The anatomy of the vomeronasal organ characterisation by means of nasal endoscopy and magnetic resonance imaging. Chem Senses 24, abs. 365. [Pg.213]

Rasmussen L.E.L. and Hultgren B. (1990). Gross and microscopic anatomy of vomeronasal organ in the Asian Elephant (Elephas maximus). In Chemical Signals in Vertebrates 5 (MacDonald D., Milller-Schwarze D. and Natynczuk S.E., eds.). Oxford University Press, pp. 154-161. [Pg.240]

Sherrer, G.B. Philalgia in Warwickshire F. M. Van Helmont s anatomy of pain applied to Lady Anne Conway. Studs Renaiss 5 (1958) 196-206. [Pg.258]

FIGURE 26-5 Immunohistochemical localization of type I corticosteroid receptor (mineralocorticoid receptor) in the rat hippocampus. (A) Mineralocorticoid immunoreactivity is concentrated in pyramidal cell fields of the cornu ammonis (CA2). (B) High-power photomicrograph shows that steroid-bound mineralocorticoid receptors are primarily localized to neuronal cell nuclei. (Courtesy of Dr James P. Herman, Department of Anatomy and Neurobiology, University of Kentucky.)... [Pg.464]

Rosin, D. L., Hettinger, B. D., Lee, A. and Linden, J. Anatomy of adenosine a2a receptors in brain Morphological substrates for integration of striatal function [Comment]. Neurology 61 SI2-18,2003. [Pg.778]

Levy, L. B., and J. D. Penrod (April 1989). "The Anatomy of an Acrylic Acid Runaway Polymerization." Plant/Operations Progress 8, 2, 105-8. [Pg.225]

Flyvbjerg, B., Rothengatter, W. and Bruzelius, N. (2003). Megaprojects and Risk-An Anatomy of Ambition. Cambridge University Press. [Pg.596]

Stomach, variations in form. From laboratory specimens. The author is deeply indebted to Dr. Barry J. Anson of Northwestern University, who has kindly allowed him to reproduce illustrative material from his valuable Atlas of Human Anatomy (W. B. Saunders Co., Philadelphia, Pa., 1951). This illustration is on page 287. [Pg.40]

Branches of the aortic arch. Variation in the pattern of origin, a and b, Common pattern c and d, left common carotid artery from the innominate (long and short stem) e, separate origin of a thyreoidea ima artery / independent origin of a left vertebral. From Barry J. Anson, Atlas of Human Anatomy, p. 197. [Pg.51]

Barry J. Anson, Atlas of Human Anatomy, W. B. Saunders Co., Philadelphia, Pa. and London, England, 1951. [Pg.71]

Haeberlin, B., and Friend, D.R., Anatomy and physiology of the gastrointestinal tract. In Oral Colon-Specific Drug Delivery (D.R. Friend, ed.), CRC Press, Boca Raton, 1992, pp. 1-43. [Pg.56]

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See also in sourсe #XX -- [ Pg.101 , Pg.102 , Pg.103 , Pg.104 , Pg.105 , Pg.106 , Pg.107 ]



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