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There are many variants of the tetraloop. The published ones include ANYA, [3] [4] CUYG, [5] GNRA, [6] UNAC [7] and UNCG. [8] Three types of tetraloops are common in ribosomal RNA: GNRA, UNCG and CUUG, in which the N could be either uracil, adenine, cytosine, or guanine, and the R is either guanine or adenine. These three sequences form stable ...
As expected, when both the edges are H, a double inversion is observed, and H:H cis and trans correspond respectively to antiparallel and parallel local strand orientations. The annotation of local strand orientation in terms of parallel and antiparallel directions helps to understand which faces of the individual bases can be seen for a given ...
Nucleic acids present in the washed (and preferably dried) silica-nucleic acid complexes is eluted into chosen elution buffer such as TE buffer, aqua bidest, and so on. The selection of the elution buffer is co-determined by the contemplated use of the isolated nucleic acid. In this way, pure nucleic acids are isolated from the starting material.
Deoxyribonucleic acid (DNA) is a nucleic acid containing the genetic instructions used in the development and functioning of all known living organisms. The chemical DNA was discovered in 1869, but its role in genetic inheritance was not demonstrated until 1943. The DNA segments that carry this genetic information are called genes.
TFOs are short (≈15-25 nt) nucleic acid strands that bind in the major groove of double-stranded DNA to form intramolecular triplex DNA structures. There is some evidence that they are also able to modulate gene activity in vivo. In peptide nucleic acid (PNA), the sugar-phosphate backbone of DNA is replaced with a protein-like backbone. PNAs ...
Nucleic acid design can be used to create nucleic acid complexes with complicated secondary structures such as this four-arm junction. These four strands associate into this structure because it maximizes the number of correct base pairs, with As matched to Ts and Cs matched to Gs. Image from Mao, 2004. [5]
Nucleic acid tertiary structure is the three-dimensional shape of a nucleic acid polymer. [1] RNA and DNA molecules are capable of diverse functions ranging from molecular recognition to catalysis. Such functions require a precise three-dimensional structure.
In the early 1950s, Alexander Todd's group pioneered H-phosphonate and phosphate triester methods of oligonucleotide synthesis. [5] [6] The reaction of compounds 1 and 2 to form H-phosphonate diester 3 is an H-phosphonate coupling in solution while that of compounds 4 and 5 to give 6 is a phosphotriester coupling (see phosphotriester synthesis ...