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Transfer RNA

Transfer RNA carrying an amino acid.

Transfer RNA is the prototype adaptor, i.e. a molecule that performs two independent recognition steps, one in the nucleotide world and the other in the world of amino acids.

Transfer RNA Precursor Processing. The conversion of a yeast tRNA precursor into a mature tRNA requires the removal of a 14-nucleotide intron . In addition, several bases are modified.

Transfer RNA-Binding Sites. The tRNA molecules in sites A and P are base paired with mRNA.

Transfer scheme between states l - 0 — T . The first ,

Transfer system for use at conjugate foci made of two lenses corrected for infinite conjugate ratio. The focal lengths of lens 1 and lens 2 are f and f2, respectively

Transfer systems to link gas-liquid separator to vapour elemental techniques.

Transfer tape use in membrane switch assembly. On right

Transfer times extend the cycle times.

Transfer TLG paper, a transferring a TLC-spot to a paper strip h concentratiag a PC-spot in the point of the paper c delivering this concentrated substance spot to TLC. 1 substance spot 2 scraped-off TLC-zone 3 filter paper 4 micropipette 5 crystallising dish with solvent. For details, see text

Transfer to ethylbenzene in anionic polymerization of styrene.

Transfer to hydrogen in ethylene polymerization. Dependence of P 1 on the ratio ,

Transfer to organometal in ethylene polymerization. Dependence of P 1 on the ratio ,

Transfer to polymer chain by backbiting, leading to low-density polyethylene .

Transfer to the carcass of a gavage dose of Zn administered to two groups of rats

Transfer to the monomer during the polymerization of P-lactones

Transfer tool with robot

Transfer units related to column parameters.

Transfer wear rates in lubricants of two PTFE composites as a function of the solubility parameter, 6, of the lubricating media. The wear of the dry contacts is shown at 6 0 and the calculated value of 6 for PTFE is ca. 6.0. The solubility parameter is defined as the square root of the cohesive energy density and is therefore nearly proportional to the square root of the surface tension, of the fluid. The trend for the wear to increase with y and 6 is apparent. In the dry contact secure transfer films are formed but they are not evident in lubricated contacts. It is reasonable to suppose that as y increases the wetting of the steel counterface improves and hence the transfer films are more readily displaced. Data adapted from Lancaster and Evans.

Transfer-hydrogenation of acetophenone with HCOOH NEt3 as hydrogen source

Transfer-hydrogenation of anthracene with tetrahydronaphthalene as hydrogen source in molten SbCl3

Transference at liquid junction

Transference in CuSO solution using copper electrodes.

Transference number of electronic carriers, tcl, for AX as a function of the chemical potential of X -



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