ライフサイエンスコーパス: phosphorolytic

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1 bidopsis VTC2 utilize hexose 1-phosphates as phosphorolytic acceptor substrates.

2 th poor reactivity of hexose 1-phosphates as phosphorolytic acceptors.

3 structured RNA substrates reveals processive phosphorolytic activities for human Rrp41/Rrp45 and the

4 and adjacent normal tissues were assayed for phosphorolytic activity and sensitivity to 5-benzylacycl

5 y solid tumors and the presence of a variant phosphorolytic activity in breast cancer tissues.

6 The BAU-insensitive phosphorolytic activity in selected tumors, coupled with

7 No effect of nucleoside diphosphates on the phosphorolytic activity of E. coli PNPase was observed.

8 strates for polymerization by PNPase, on the phosphorolytic activity of that enzyme.

9 ures of plant exosome complexes, such as the phosphorolytic activity of the core complex, and discuss

10 s, OIP2, is a 3'-->5' exoribonuclease with a phosphorolytic activity that processes the 3' terminus o

11 ns similar to the normal enzyme, and the new phosphorolytic activity was independent from thymidine p

12 llopentaose were the best substrates for the phosphorolytic and reverse synthetic reactions, respecti

13 ly determined values for G(ATP)P-T (ATP from phosphorolytic beta-glucan cleavage minus ATP for substr

14 bolically stable since they are resistant to phosphorolytic cleavage by pyrimidine nucleoside phospho

15 accharide uptake combined with intracellular phosphorolytic cleavage of beta-glucosidic bonds; and (i

16 gment that accumulates in the absence of the phosphorolytic enzymes revealed the presence of an exten

17 s and mechanisms of action for these 3'-->5' phosphorolytic enzymes.

18 also resistant to metabolic deactivation by phosphorolytic enzymes.

19 tide of the primer does not confer increased phosphorolytic excision by AZT(R) RT for all 3'-azido-dd

20 tural determinant important for the enhanced phosphorolytic excision of AZTMP associated with HIV res

21 primer terminus in the appropriate site for phosphorolytic excision of AZTMP by AZT-resistant (AZT(R

22 to 3'-azido-3'-deoxythymidine (AZT) involves phosphorolytic excision of chain-terminating AZT-5'-mono

23 nvolves reverse transcriptase (RT)-catalyzed phosphorolytic excision of the chain-terminating AZT-5'-

24 hypothesis, we evaluated the incorporation, phosphorolytic excision, and antiviral activity of a pan

25 -terminal EFdA-MP ideally located to undergo phosphorolytic excision.

26 d recombinant AtRrp41p displays a processive phosphorolytic exonuclease activity and requires a singl

27 ucleotide phosphorylase (PNPase), a 3'-to-5' phosphorolytic exoribonuclease, is thought to be the pri

28 The activity of the phosphorolytic exoribonuclease, polynucleotide phosphory

29 preceding the division of the hydrolytic and phosphorolytic pathways.

30 ese results suggest that the requirement for phosphorolytic RNases for robust cellular growth and eff

31 es) and RNases that use inorganic phosphate (phosphorolytic RNases).

32 he absence of the two known Escherichia coli phosphorolytic RNases, polynucleotide phosphorylase and

33 e growth defects caused by an absence of the phosphorolytic RNases.

34 he increased chloroplastic G6P resulted from phosphorolytic starch degradation.

35 can unblock a chain-terminated DNA primer by phosphorolytic transfer of the terminal residue to an ac

36 sugar nucleotide-dependent biosynthesis and phosphorolytic turnover of mannogen.