ライフサイエンスコーパス: molecular modification

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1 y for control programs based on manipulative molecular modification.

2 nking tool for the effects of inhibitors and molecular modifications.

3 in adults requires anatomical, cellular, and molecular modifications.

4 ted to highlighting various chemical and bio-molecular modifications and explores how these permit th

5 erature optima are influenced differently by molecular modifications and thus that the protein flexib

6 ch can be modulated by known biochemical and molecular modifications, and the transactivator binding

7 These cellular and molecular modifications are reversed when the environmen

8 ng for comparison of the specific effects of molecular modifications as well as for determination of

9 , but requires a better understanding of the molecular modifications controlling its activation.

10 act that the functional consequences of this molecular modification have been well characterized in c

11 ch present a rich resource for demonstrating molecular modifications influenced by the human demands.

12 Further molecular modifications involve the pendant phenyl ring

13 ture of the subcellular compartments and the molecular modifications involved in the multiple steps i

14 ogically monitored synaptic depression and a molecular modification known to affect synaptic vesicle

15 py approaches because of its flexibility for molecular modification, large cargo capacity, and high t

16 ave been created in this way and this simple molecular modification may address several problems in t

17 scular resistance are related to the type of molecular modification, molecular volume, and oxygen aff

18 Recent studies involving molecular modification of adult somatic cells have point

19 DNA methylation is a molecular modification of DNA that plays crucial roles i

20 activity of piggyBac and the flexibility for molecular modification of its transposase suggest the po

21 Molecular modification of known explosives is considered

22 lts in nuclear transport of p16 leading to a molecular modification of NFkappaB.

23 Thus, the molecular modification of PEGylation confers critical ne

24 Molecular modifications of both the kappa opioid antagon

25 ion of B cells by antigen fuels two distinct molecular modifications of immunoglobulin (Ig) genes.

26 d, and we are only beginning to identify the molecular modifications of specific targets.

27 he neonatal metabolome could reveal critical molecular modifications, potentially underpinning diseas

28 s histone has the capacity to mediate stable molecular modifications required for memory retention.

29 an epigenetic clock model that outlines how molecular modifications, such as DNA methylation, are in

30 trix changes are potentially associated with molecular modifications that include expression of matri

31 Molecular modifications that increased the positive elec

32 approach to a sensitive assessment of global molecular modifications that is independent of antibodie

33 euroligins, intermolecular interactions, and molecular modifications that occur within a synapse.

34 tivity-dependent synaptic plasticity involve molecular modifications that require gene expression.

35 dynamics to the immunological, cellular, and molecular modifications that underlie these processes, a

36 molecular machines: focusing on the role of molecular modifications to the proteins carrying out tra

37 however, we still know very little about the molecular modifications underlying diapause.

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