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"gram molecular weight"¿¡ ´ëÇÑ °Ë»ö °á°úÀÔ´Ï´Ù. °Ë»ö °á°ú º¸´Â µµÁß¿¡ Tab ۸¦ ´©¸£½Ã¸é °Ë»ö âÀÌ ¼±Åõ˴ϴÙ.
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  • molecular film
    ºÐÀÚ¸·(ÝÂí­Ø¯).
  • molecular filter
    ºÐÀڰŸ£°³.
  • molecular force
    ºÐÀÚ·Â(ÝÂí­æ³).
  • molecular form
    ºÐÀÚÇüÅÂ
  • molecular formula
    ºÐÀÚ½Ä(ÝÂí­ãÒ).
  • molecular genetic study
    ºÐÀÚÀ¯ÀüÇÐ<ÀÚ>°Ë»ç
  • molecular genetics
    ºÐÀÚÀ¯ÀüÇÐ(¡­ë¶îîùÊ).
  • molecular genetics
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  • molecular grating
    ºÐÀÚ°ÝÀÚ(ÝÂí­Ì«í­).
  • molecular heat
    ºÐÀÚ¿­(ÝÂí­æð).
  • molecular hypothesis
    ºÐÀÚ°¡¼³.
  • molecular layer
    ºÐÀÚÃþ(ÝÂí­öµ).
  • molecular layer
    ºÐÀÚÃþ
  • molecular layer plexiform layer
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  • molecular lesion
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LEMO lowest empty molecular orbital
LMO localized molecular orbital
LOCM low molecular contrast medium
LUMO lowest unoccupied molecular orbital
MGG May-Grunwald-Giemsa [staining]; molecular and general genetics; mouse gammaglobulin; multinucleated ...
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AMOVA Analyses of molecular variance
CoMFA Comparative Molecular Field Analysis
HMM High molecular mass
HOMO Highest Occupied Molecular Orbital
LMM Low molecular mass
CancerWEB ¿µ¿µ ÀÇÇлçÀü À¯»ç °Ë»ö °á°ú : 13 ÆäÀÌÁö: 7
molecular modeling <chemistry> The use of computers to create models of molecules.
(14 Nov 1997)
molecular movement Erratic, nondirectional, zigzag movement observed by ultramicroscope in certain colloidal solutions and by microscope in suspensions of light particulate matter that results from the jostling or bumping of the larger particles by the molecules in the suspending medium which are regarded as being in continuous motion.
Synonym: brownian motion, brownian-Zsigmondy movement, molecular movement, pedesis.
(05 Mar 2000)
molecular pathology The study of biochemical and biophysical cellular mechanisms as the basic factors in disease.
(05 Mar 2000)
molecular probes A group of atoms or molecules attached to other molecules or cellular structures and used in studying the properties of these molecules and structures. Radioactive DNA or RNA sequences are used in molecular genetics to detect the presence of a complementary sequence by molecular hybridization.
(12 Dec 1998)
molecular probe techniques The use of devices which use detector molecules to detect, investigate, or analyze other molecules, macromolecules, molecular aggregates, or organisms.
(12 Dec 1998)
molecular sequence data Descriptions of specific amino acid, carbohydrate, or nucleotide sequences which have appeared in the published literature and/or are deposited in and maintained by databanks such as genbank, european molecular biology laboratory (embl), national biomedical research foundation (nbrf), or other sequence repositories.
(12 Dec 1998)
molecular sieve A gel-like material with pore sizes of such ranges as to exclude molecules above certain sizes; used in fractionating or purifying macromolecules.
(05 Mar 2000)
molecular structure The location of the atoms, groups or ions relative to one another in a molecule, as well as the number and location of chemical bonds.
(12 Dec 1998)
directed molecular evolution Techniques used to produce molecules exhibiting properties that conform to the demands of the experimenter.
(12 Dec 1998)
epidemiology, molecular The application of molecular biology to the answering of epidemiological questions. The examination of patterns of changes in DNA to implicate particular carcinogens and the use of molecular markers to predict which individuals are at highest risk for a disease are common examples.
(12 Dec 1998)
european molecular biology lab gene bank <molecular biology> A large database of DNA sequence data in Heidelberg, Germany, compiled from international sources. It is the European equivalent to the Genbank DNA sequence databank in the United States of America.
WWW: EMbase.
(09 Oct 1997)
evolution, molecular Evolution at the molecular level of DNA sequences and proteins. (rieger et al., glossary of genetics: classical and molecular, 5th ed)
(12 Dec 1998)
kinetic molecular theory <chemistry> This theory assumes that molecules must collide in order to react. The more collisions the more likely it is for a reaction to occur.
However, depending on the conditions, only a small fraction of the collisions are effective in producing a reaction. There are several constraints. In order for a reaction to occur, bonds initially are broken, which requires energy. This energy depends on the type of the reaction and comes from the kinetic energies that the molecules possess before the collision. It is called the activation energy. Increasing the temperature increases the kinetic energies and more collisions will occur. In adition, at a higher temperature a greater number of the reacting molecules might possess an energy equal to or greater than the activation energy. However the molecules must also collide in a specific orientation, called the steric factor in order for a reaction to occur.
A reaction will only be successful, if the collision has enough energy to be either equal to or greater than the activation energy and if the orientation of the collision allows for correct bond formation. These factors are in the Arrhenius equation: k = zp The rate constant k is proportional to the Arrhenius factor A. A is the product of the collision frequency z, and the steric factor p. The fraction of collisions with sufficient energy to produce a reaction are in the term of the equation.
(09 Jan 1998)
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