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1 table for conventional phosphoramidite-based nucleic acid synthesis.
2 ssential for cellular energy homeostasis and nucleic acid synthesis.
3 play an important role in their fidelity of nucleic acid synthesis.
4 ilability of purine nucleotides destined for nucleic acid synthesis.
5 own RNA-dependent RNA polymerase (RdRp) for nucleic acid synthesis.
6 P, and dCDP, which are required for cellular nucleic acid synthesis.
7 s between cellular methylation reactions and nucleic acid synthesis.
8 on; folate is central because of its role in nucleic acid synthesis.
9 primase with the unique ability to initiate nucleic acid synthesis.
10 use oligoribonucleotide primers to initiate nucleic acid synthesis.
11 Protozoa depend on purine salvage for nucleic acid synthesis.
12 nfluencing the nucleotide pool available for nucleic acid synthesis.
13 olase deficiency reduces NADPH synthesis and nucleic acid synthesis and cell division and could expla
15 the genome which includes genes involved in nucleic acid synthesis and repair, including dipyrimidin
16 agenesis, two aspartate residues crucial for nucleic acid synthesis and residues important for the bi
17 e acquired via HGT several genes involved in nucleic acid synthesis and salvage, such as those encodi
18 ian cells has important roles in protein and nucleic acid synthesis and structure, protection from ox
19 where they are used for energy transactions, nucleic acid synthesis, and a multiplicity of biochemica
20 echnological advances in protein expression, nucleic acid synthesis, and structural biology made it p
21 such as cell wall synthesis, amino acid and nucleic acid synthesis, and the ability to survive under
22 volved in cell signaling, energy metabolism, nucleic acid synthesis, and the maintenance of acid-base
23 s function of producing one-carbon units for nucleic acid synthesis, another crucial function of this
24 cellular processes, including proliferation, nucleic acid synthesis, apoptosis, and protection from o
25 ed in metabolism, transcription, protein and nucleic acids synthesis, as well as stress responses, ce
26 te (P(i)) is required for energy metabolism, nucleic acid synthesis, bone mineralization, and cell si
27 s a crucial role in supplying precursors for nucleic acid synthesis by catalyzing the conversion of U
28 eed for these viruses to promote lytic viral nucleic acid synthesis by unscheduled entry into the S p
29 disturbance in tumor cells: highly increased nucleic acid synthesis despite hypoxia and decreased glu
32 (N) and phosphate (P) costs associated with nucleic acid synthesis in the nucleus and the transcript
35 A) is important to mitochondrial protein and nucleic acid synthesis, is an antioxidant, and enhances
36 jor classes of cellular activities: mitosis, nucleic acid synthesis, membrane transport and integrity
37 provide an appropriate functional group for nucleic acid synthesis or oligonucleotide immobilization
38 , with the top effective compounds targeting nucleic acid synthesis, oxidative stress, and the PI3K/m
40 n by the biosecurity screening tools used by nucleic acid synthesis providers, identifying a vulnerab
42 phosphorylation facilitates the increase in nucleic acid synthesis required for anabolic cell growth
43 a nucleoside mimic nor a known inhibitor of nucleic acid synthesis, this was expected and suggests i
45 and support models of a common mechanism of nucleic acid synthesis underlying catalysis by all such
46 In contrast, here we demonstrate templated nucleic acid synthesis using a base-filling approach in