ライフサイエンスコーパス: grain protein

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1 enzymes that the fungi may use to hydrolyze grain proteins.

2 economic and nutritional importance of rice grain protein and nutritional components of rice bran (R

3 ics simulations using newly developed coarse-grained protein and DNA models for evaluating how hydrod

4 combining biophysical simulations of coarse-grained proteins and analysis of proteins-complex crysta

5 total aboveground biomass, grain yield, and grain protein concentration (GPC) varied depending on cu

6 Total grain protein concentration was decreased by 9% at e[CO2

7 We use coarse grained protein conformational search, efficient robust

8 P13) may play important roles in determining grain protein content and grain yield.

9 lowered with no detriment to carbon gain or grain protein content.

10 nally, a total of 10 QTL were identified for grain protein content.

11 inding energies for each state of the coarse-grained protein corresponding to the symmetry of the dim

12 single nucleosomes using a predictive coarse-grained protein DNA model with transferable force fields

13 An alkaline extracted brewers' spent grain protein-enriched isolate (BSG-PI) was hydrolysed u

14 -helix forming alanine peptides and a coarse-grained protein folding model in explicit-solvent molecu

15 tructure, and energy model (AWSEM), a coarse-grained protein folding model that has been optimized us

16 A predictive coarse-grained protein force field [associative memory, water-m

17 Using a predictive coarse-grained protein force field, we compute and compare the

18 nd energy model (AWSEM), a predictive coarse-grained protein force field.

19 thy triggered by gliadin, a component of the grain protein gluten.

20 dels generated by different chemometrics for grain protein (GPC) and amylose content (AC) of BR and p

21 We propose a realistic coarse-grained protein model and a technique to "anchor" the mo

22 The OPEP coarse-grained protein model has been applied to a wide range o

23 e folding landscape associated with a coarse-grained protein model of src homology 3 as sampled by mo

24 ogous protein sequences and develop a coarse-grained protein model specifically tailored to convert t

25 We use a coarse-grained protein model to characterize the critical nucle

26 We develop a coarse-grained protein model with a simplified amino acid inter

27 ng and p(fold) analysis using DMD and coarse-grained protein model with structure-based Go-interactio

28 model known as AWSEM, a transferable coarse-grained protein model, we performed simulations of fused

29 l domains in a simulated cell using a coarse-grained protein model, which is based upon Langevin dyna

30 to determine effective potentials for coarse-grained protein models directly from protein databank st

31 On the other hand, coarse-grained protein models in implicit solvent miss essentia

32 ing surface water molecules, into the coarse-grained protein motions.

33 unfolding-refolding trajectories of a coarse-grained protein (S1) with beta-sheet architecture for se

34 her MS-based footprinting can provide coarse-grained protein structure by following structural change

35 ute approximately half the sulfur needed for grain protein synthesis.

36 cence by more than 3 weeks and reduced wheat grain protein, zinc, and iron content by more than 30%.

37 tative trait locus associated with increased grain protein, zinc, and iron content.

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