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- ...he [[Max Planck Society|Max Planck Working Groups for Structural Molecular Biology]], and published in the journal ''[[Nature (journal)|Nature]]''.<ref>{{cite25 KB (3,261 words) - 14:17, 11 September 2010
- ...h">Erlich, Henry, W Ford Doolittle, Volker Neuhoff, and et al. . Molecular Biology of Rifomycin. New York, NY: MSS Information Corporation, 1973. pp. 44-45, 6 ...Christopher J. "Bacterial RNA-Polymerase - Rifampin as Antimycobacterial." Molecular Mechanisms of Drug Action. 2nd ed. Bristol, PA: Taylor Francis, 1994. pp. 418 KB (2,471 words) - 16:43, 27 September 2010
- | journal = [[Journal of Molecular Biology]]9 KB (1,069 words) - 15:06, 6 July 2010
- Kanamycin is used in molecular biology as a selective agent most commonly to isolate [[bacteria]] (e.g., ''[[E. co4 KB (503 words) - 16:44, 27 September 2010
- * Watson ''et al.'': ''Molecular Biology of the Gene 4''<sup>th</sup> edition. The Benjamin/Cummings Publishing Com * Mitsuya H, Yarchoan R, Broder S. Molecular targets for AIDS therapy. ''Science'' 1990;249(4976):1533-449 KB (1,239 words) - 16:44, 27 September 2010
- ...the discriminative stimulus effects of ketamine in rats |journal=Addiction Biology |volume=6 |issue=4 |pages=373–376 |year=2001 |month=September |pmid=11900 ...ournal|author=Chen X, Shu S, Bayliss DA |title=HCN1 channel subunits are a molecular substrate for hypnotic actions of ketamine |journal=J. Neurosci. |volume=2969 KB (9,697 words) - 21:01, 24 September 2010
- ...[chlorine|Cl]]. It has many uses in a range of different fields, such as [[biology]] and [[chemistry]]. At room temperature it appears as a solid, odorless, d ===Biology===27 KB (3,650 words) - 16:46, 27 September 2010
- ...disorders: can we see the forest for the trees? | journal = [[Cellular and Molecular Life Sciences]] | year =2007 | pmid = 17514356 | volume = 64 | pages = 2090 ...hemotherapy in Human Melanoma Cells | journal = [[Cancer Biol Ther.|Cancer Biology & Therapy]] | volume = Feb 5 | issue = 6 | pages = 185–91| year = 2007 |25 KB (3,328 words) - 16:47, 27 September 2010
- Ampicillin is often used as a selective agent in [[molecular biology]] to select for and to confirm the uptake of [[gene]]s (e.g., of [[plasmid]7 KB (881 words) - 16:47, 27 September 2010
- ...NO]·2H<sub>2</sub>O.<ref>{{cite journal| title=Non-Heme Iron Nitrosyls in Biology |author= A. R. Butler, I. L. Megson| journal=Chemical Reviews |year=2002 | ...ide]] ligands and one linear [[nitric oxide]] ligand. The [[symmetry group|molecular symmetry]] is C<sub>4v</sub>. [[Metal nitrosyl|Linear nitrosyl ligands]] a9 KB (1,095 words) - 16:48, 27 September 2010
- In [[neuron]]s, dopamine is packaged after synthesis into [[Vesicle (biology)|vesicles]], which are then released into the [[synapse]] in response to a ...ea to the frontal lobe of the [[pre-frontal cortex]]. Neurons with [[Soma (biology)|somas]] in the ventral tegmental area project axons into the pre-frontal c48 KB (6,470 words) - 16:48, 27 September 2010
- ...At elevated temperatures, nitrous oxide is a powerful oxidizer similar to molecular oxygen. ...scoverer of Anæsthesia: Dr. Horace Wells of Hartford|work=Yale Journal of Biology and Medicine, May 1933; v.5, n.5, p.421–430|year=1933}}</ref> In the foll61 KB (8,728 words) - 16:50, 27 September 2010
- ...subsequently integrated into the genetic material of the infected [[cell (biology)|cell]] (where it is called a [[provirus]]).<!-- --><ref>{{cite journal | author=Mitsuya H, Yarchoan R, Broder S | title=Molecular targets for AIDS therapy. | journal=Science | volume=249 | issue=4976 | pag21 KB (3,049 words) - 16:51, 27 September 2010
- ...widely used for scavenging metal ions: In [[biochemistry]] and [[molecular biology]], ion depletion is commonly used to deactivate metal-dependent [[enzyme]]s21 KB (2,946 words) - 15:10, 6 July 2010
- ...e, J. Hartwell, M. F. Fay, L. R.Caddick, K. M. Cameron, and S. Hoot. 1995. Molecular phylogenetics of Lilianae. Pp. 109-137 in P. J. Rudall, P. J. Cribb, D ...ter, L. M. Prince, and M. G. Simpson, M. G. (eds), ''Monocots: comparative biology and evolution (excluding Poales).'' Rancho Santa Ana Botanical Garden, Clar17 KB (2,020 words) - 12:26, 7 July 2010
- === Use in [[Molecular Biology]]: [[Digoxigenin]] === ...nts ''Digitalis purpurea'' and ''[[Digitalis lanata]]''. It is used as a [[molecular probe]] to detect DNA or RNA. It can easily be attached to nucleotides by c7 KB (1,022 words) - 12:26, 7 July 2010
- ...ae]] of the broadly [[Circumscription (taxonomy)|circumscribed]] [[Family (biology)| family]] [[Asparagaceae]]. <ref name="chase2009"> Mark W. Chase, James L. ...lecular data for classification". ''Aliso'' '''22'''(Monocots: Comparative Biology and Evolution):313-328. </ref> In the [[APG II system]], ''Agave'' was plac14 KB (2,167 words) - 12:27, 7 July 2010
- ...2.2''' [[Chemical compound|Chemical Compounds]]: [[Molecule|Molecular Structure]] and [[Chemical Bond|Chemical Bonding]] '''1 ...2.3''' [[Molecular biology|Vital Processes at the Molecular Level]]41 KB (5,585 words) - 13:32, 19 September 2010
- ...ent the docking of amino-acylated tRNA. <ref>Alekshun, M. N. & Levy, S. B. Molecular Mechanisms of Antibacterial Multidrug Resistance. Cell, 128, 1037-1050 (200 ...ugh the action of a monooxygenase.<ref>Zakeri, B. & Wright, G. D. Chemical biology of tetracycline antibiotics. Biochem. Cell Biol. 86, 124-136 (2008).</ref>11 KB (1,417 words) - 21:55, 19 September 2010
- ...the [[biology]] of both [[plant]]s and [[animal]]s, for holding [[tissue (biology)|tissue]]s together. Human uses for fibers are diverse. They can be spun in ...[polyethylene]] (PE), eventually with extremely long chains / [[Ultra high molecular weight polyethylene|HMPE]] (e.g. Dyneema or Spectra).8 KB (1,192 words) - 10:08, 20 September 2010
