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 res corresponding to hemoglobin subunit-heme complex ions.
2 lculations on all of the observed Co(I) dppe complex ions.
3                    Here, protein and protein complex ions are formed directly from a 150 mM KCl and 2
4           The respective mono- and dibenzene complex ions are isolated in an ion-trap mass spectromet
5 native-like protein, and native-like protein complex ions are reported here, forming a database of co
6 cine), and [Mn(II) + (l-Phe-Gly - H) + M](+) complex ions are used to determine collision cross secti
7 ectroelectrochemical characterization of the complex ion at an ITO optically transparent electrode to
8 lective electrostatic adsorption of non-zinc complex ions at alkaline conditions.
9 he direct formation of intact protein-ligand complex ions by spraying ligands toward separate protein
10 hypotheses for further investigation of this complex ion channel.
11 RF3 critical for its formation of multimeric complexes, ion channel activity, and, ultimately, releas
12 sults are general and can be applied to more complex ion channels, providing insight into ion channel
13 s for probing the functional architecture of complex ion channels.
14                 Collision activation of this complex ion delivered evidence for the gas-phase reactio
15 mitters are used to form protein and protein complex ions directly from high-ionic-strength (>150 mm)
16                                      Protein complex ions (e.g., superoxide dismutase, enolase, and h
17             This study provides insight into complex ion effects on protein stability and serves as a
18 eparation of native-like protein and protein complex ions expands the structural information availabl
19 ive mass spectrometry of protein and protein complex ions formed from a buffer containing physiologic
20 icated reaction is catalyzed by paramagnetic complex ions giving rate constants that are proportional
21 h supercharging reagents resulted in protein complex ions having increased multiple charging without
22 ate the reduction of Sn(IV) as the hexabromo complex ion in a 2 M HBr-4 M NaBr medium.
23 take, retention, and optical response of the complex ion in the Nafion film.
24 ridyl)-s-triazine, which forms a blue-violet complex ion in the presence of ferrous ions.
25  ceratodes blood cells, intrinsic aquo-VSO4+ complex ion is indicated by an inflection feature at 547
26 roscopic data indicate that, in the tungsten complex ion IV(+), the single electron is delocalized ov
27 f dipicolinic acid, amino acids, and calcium complex ions made in the spore mass spectra.
28 s capable of much higher resolution and more complex ion manipulations.
29 ing trace analyte ions that are present in a complex ion mixture to a mass spectrometer (MS) for iden
30 s served to extract bacterial peaks from the complex ion mobility spectra of intact microorganisms an
31 ed ESI-MS spectra showing only protein-dsDNA complex ions of 1:1 stoichiometry and free dsDNA.
32  simulations, indicating that the effects of complex ions on proteins are increasingly predictable in
33 come more negatively charged, the "successor-complex" ion pairs are subject to larger anion-anion rep
34  to separate native-like protein and protein complex ions ranging in mass from 12 to 145 kDa.
35                               CD indicates a complex ion-specific destabilization of the alpha-helix
36                     Fragile transition metal complex ions such as [Cr(H2O)4Cl2](+), difficult to be o
37 trometry by adducting to protein and protein complex ions, thereby reducing sensitivity and mass meas
38                                 The trimeric complex ion (three chiral ligands-2 mol of the analyte a
39                                 The trimeric complex ions (three chiral ligands--one of the analyte a
40                                The resulting complex ion, tris(2,2'-bipyridyl)iron(II), Fe(bipy)3(2+)
41 correct molar extinction coefficient of this complex ion under FRAP assay conditions has never been p
42 to carry away excess energy from the protein complex ion upon activation and can result in significan
43  by soft and reactive landing (SL and RL) of complex ions was implemented on a mass-selected ion depo
44 result suggests that for protein and protein complex ions within this mass range, there is no inheren

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。