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Of structures, storage

CLOB. A Character Large Object data type. This data type is used in Oracle, for instance, to store large amounts (e.g., up to several Gigabytes) of character data. Storage of structures in a relational database in mole-cule-file format is an example. [Pg.401]

This system deviates from other systems in two main characteristics in the description method of the atomic environments, and in the data structure used for the storage of structural information. [Pg.128]

PDB files were designed for storage of crystal structures and related experimental information on biological macromolecules, primarily proteins, nucleic acids, and their complexes. Over the years the PDB file format was extended to handle results from other experimental (NM.R, cryoelectron microscopy) and theoretical methods... [Pg.112]

Table 1. Structural Parameters for Storage of Information in a Chemical Receptor... Table 1. Structural Parameters for Storage of Information in a Chemical Receptor...
Present-day nomenclature is partly the result of the conflict and interplay of two functions the need to communicate in speech and on the printed page on the one hand, and the need for archival storage of information and its efficient, reliable retrieval. The former function came first, and laid the basis for the nomenclature most commonly used even today, and gave birth to a wealth of trivial names (i.e. names that give little or no information on structure). These were often coined on the basis of the origin of the substance, as in the case of collidine, obtained from distillation of bones in glue factories, or were derived from a special characteristic, as in the case of skatole, which has a fecal odor. Such names are short and generally euphonious, but they must be memorized they cannot be deduced from the structure. [Pg.8]

RNA structures, compared to the helical motifs that dominate DNA, are quite diverse, assuming various loop conformations in addition to helical structures. This diversity allows RNA molecules to assume a wide variety of tertiary structures with many biological functions beyond the storage and propagation of the genetic code. Examples include transfer RNA, which is involved in the translation of mRNA into proteins, the RNA components of ribosomes, the translation machinery, and catalytic RNA molecules. In addition, it is now known that secondary and tertiary elements of mRNA can act to regulate the translation of its own primary sequence. Such diversity makes RNA a prime area for the study of structure-function relationships to which computational approaches can make a significant contribution. [Pg.446]

The fire department blamed the accident on welders cutting in hazardous areas without a fire watch, highly combustible structural components (fiber-glass-resin), high-density storage of highly flammable and detonable material, spilled ammonium perchlorate about the plant, and high w ind conditions. [Pg.258]

Repeated attempts to obtain the band at 1030 cm 1 in spectra of the respective solids of various compositions did not furnish the desired result. Nevertheless, the band was observed in IR transmission spectra of gaseous components that separated from molten K2NbF7 and were collected in a standard gas phase cell with Csl windows appropriate for IR measurements. Fig. 85 presents the structure of the band and exact wave numbers of its components. Storage of the gas in the cell for several days resulted in a yellow deposit on the windows due to oxidation and subsequent separation of iodine. Analysis of available reported data [364 - 367] enables to assign the band observed at -1030 cm 1 to vibrations of OF radicals. It should be emphasized that a single mode was observed for OF in the argon matrix while in the case of nitrogen, two modes were indicated [367]. [Pg.190]

Squids (Cephalopoda), 176, 181, 199 Stauroteutbis, 182, 335 Sternoptyx, 328, 338 Stigmatogaster, 336 Stomias, 338 Storage of samples, 356 under argon gas, 358 under vacuum in a sealed tube, 358 Structure determination of luciferin, 377... [Pg.469]

Modem methods for the manuf and storage of expl materials, which include many exotic chemicals, fuels, and propints, allow less space for a given quantity of expl material than previously permitted. Such concns of expls increase the possibility of the propagation of accidental explosions (one accidental explosion causing the detonation of other expl materials). It was evident that a requirement for more accurate design techniques had become essential. Ref 3 describes a rational design method to provide the required structural protection. It presents methods of design for protective construction... [Pg.60]

Moisture. The effect of moisture on expls, propints and pyrots can be deleterious in terms of reliability, efficiency and safety. This unwanted ingrenlent can add uncertainty and possible hazard in the manuf, storage and eventual use of ammo. Moisture adds to the costs of ammo in many ways. These include less effective material being available per unit volume, with concomitant increases in malfunction rate, curtailed shelf life because of structural failures occasioned by moisture-generated chem reaction products and the cost of many investigations undertaken to understand and prevent effects (Expls Refs 6,8, 11, 12, 15,17,21,26, 28,31,34,35,39, 40,. 41, 43, 44, 46, 48, 52 54 Propints Refs 9, 13, 16, 19, 21, 23, 27, 29, 37 53 Pyrots Refs 5, 7,10, 14,18, 20, 23, 24, 28, 30 38)... [Pg.167]

Storage of electricity and batteries, (MacDiarmid), 368 Structures, tangled, diagrammed after reduction at cathodic potentials, 345 Surface charge... [Pg.643]

The ER has a reticular morphology which provides a large surface area, which presumably is required for the synthesis and transport of proteins and lipids and for the storage of calcium. The ER is associated with microtubules, and the two are highly interdependent structures. Terasaki et al. (1986) found that when microtubules in the cell are depolymerized by colchicine, the ER network slowly retracts toward the center of the cell. If the microtubules are repolymerized, the ER network is restored to its original morphology, thereby suggesting that the MTs participate in the formation and maintenance of the ER. [Pg.17]

Deoxyribonucleic acid (DNA) is a very important biopolymer with the function of storage and transmission of genetic information. In this reason the protection of structural integrity and functional activity of DNA is essential for the viability of living systems, as well as the effectiveness of laboratory DNA-technics. [Pg.196]


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