Raman studies of nucleic acids. VII. Poly A · poly U and poly G · Poly C

The optical density-temperature profile of double-stranded poly(A + U), triplestranded poly(A + 2U), and double-stranded RNA from rice dwarf virus in solutions with and without poly-clysine has been examined. When poly-clysine is added, more than one melting temperature T , is observed for poly(A +

## Abstract Complexes of polyribocytidylic acid and polyriboadenylic acid with poly(L‐lysine) and poly(L‐arginine) were studied by Raman spectroscopy. The backbones of both polynucleotides are distorted by poly(L‐arginine). On the other hand, poly(L‐lysine) could distort the backbone of polyriboade

We have studied by Raman spectroscopy the thermal behavior of associated polyguanylic acid [poly(G)] and polyguanylic-polycytidylic acid [poly(G) ⅐ poly(C)] in self-pressurized aqueous solutions contained in sealed capillary tubes. The associated polynucleotides were found to be very resistant to he

The interpolymer complexation, through successive hydrogen bonding, between poly(acry1amide) (PAAm) and poly(N4sopropylacrylamide) (PNiPAAm) with poly(acry1ic acid) (PAA) in aqueous solution has been viscometrically and potentiometrically investigated. The stoichiometry of the complexes formed was d

## Abstract The Raman spectra of poly(L‐lysine) with various structures, ionized poly(L‐glutamic acid), and deuterated __N__‐methylacetamides have been observed using visible and the 257.3‐nm laser lines as the light source. Most of the Raman bands with significantly enhanced intensities in the uv‐