戻る
「早戻しボタン」を押すと検索画面に戻ります。

今後説明を表示しない

[OK]

コーパス検索結果 (1語後でソート)

通し番号をクリックするとPubMedの該当ページを表示します
1 until converted by thrombin into an active 2-chain molecule.
2 ts in terms of the conformation of the heavy chain molecule.
3 endent on the unique conformation of the two-chain molecule.
4  cytoplasmic domain of the class I MHC heavy chain molecule.
5 es and dimerizing to generate the mature six-chain molecule.
6  prevent half-molecules from forming the six-chain molecule.
7  membrane domains enriched in clathrin light-chain molecules.
8 n locations and cross-linking to form longer chain molecules.
9 l mechanical partition functions of foldamer chain molecules.
10 notted, from macroscopic string down to long-chain molecules.
11 es encoding protective MHC class II I-A beta-chain molecules.
12 nfluences the global properties of very-long-chain molecules.
13 nalogous behavior been explored in synthetic chain molecules.
14 the extended conformation, of these flexible-chain molecules.
15 S11, that binds to nascent MHC class I heavy chain molecules and causes their dislocation from the ER
16 iosynthetic pathway for the synthesis of odd-chain molecules and the development of a complementary m
17  often contain multiple labeled dynein heavy-chain molecules and turn over rapidly within seconds.
18  expected to be important for other kinds of chain molecules, and its effect on nucleation kinetics i
19 nti-TAP1 Abs, while only 20% of the Kb heavy chain molecules are isolated as Kbbeta2m complexes with
20  with viruses encoding MHC class II I-A beta-chain molecules associated with protection from the dise
21 ures, as well as allow for reconstruction of chain molecules at the base-pair level.
22 ce hybrid for this highly unsaturated carbon-chain molecule, experiment and theory reveal that the st
23   SAM formation was also probed for straight-chain molecules, hexadecanethiol and hexadecaneisocyanid
24 pression of protective MHC class II I-A beta-chain molecules in bone marrow-derived hemopoietic cells
25  human IgG1 were synthesized as secreted two-chain molecules in Chinese hamster ovary and Drosophila
26 n of diabetes-resistant MHC class II I-Abeta chain molecules in NOD mice following retroviral transdu
27 for photolytic polymer degradation (and long-chain molecules, in general) decrease as the polymer cha
28 heory for the long time dynamics of flexible chain molecules is applied for the first time to a pepti
29 otein-like behavior is obtained for a simple chain molecule made up of just 30 hard spheres.
30 This detection suggests that branched carbon-chain molecules may be generally abundant in the ISM.
31 expectation is contradicted, for both a long chain molecule (n-heptane) and atoms (Ar, Kr, and Xe).
32  been grafted onto the stoppers of [c2]daisy chain molecules obtained using a template-directed synth
33 ure characteristic of the adsorption of long-chain molecules on graphite is observed.
34 ragments of DNA change the disorder found in chain molecules randomly decorated by nonspecific, archi
35 determination that it was depleted in carbon-chain molecules relative to most other comets.
36 ways in topological interface transitions of chain molecules, resolving an open problem in kinetics o
37                Cells secrete uPA as a single-chain molecule (scuPA).
38                  However, then, how do short-chain molecules spontaneously grow longer?
39 ts analogous to the liquid crystal phase for chain molecules, stabilizes a range of shapes that can b
40 ition of the surface energy of a single long chain molecule that is computable and agrees with the me
41   We show that the crucial ingredients for a chain molecule to behave as a machine are its inherent a
42 uPA) by plasmin or when it binds as a single-chain molecule to its cellular receptor (uPAR).
43                               Such [c2]daisy chain molecules undergo reversible extension and contrac

WebLSDに未収録の専門用語(用法)は "新規対訳" から投稿できます。