Abstract: Methods, systems, and compounds for detecting modified nucleic acid bases are disclosed and described. The methods provide for detecting a nucleic acid lesion and can include directing a nucleic acid adduct into a channel, wherein the nucleic acid adduct includes a nucleic acid having a lesion and a current modulating compound coupled to the nucleic acid at the lesion (110), and measuring a change in current through the channel in response to the current modulating compound to detect the lesion (112). The method can optionally include forming the nucleic acid adduct. Also provided is a method for identifying the number of repeat nucleotides in at least a portion of a nucleic acid strand, a method of assigning a registration marker within a nucleic acid, and a method of obtaining sequence information from a nucleic acid comprising assigning a registration marker on the nucleic acid.

Abstract: Methods, systems, and compounds for detecting modified nucleic acid bases are disclosed and described. The methods provide for detecting a nucleic acid lesion and can include directing a nucleic acid adduct into a channel, wherein the nucleic acid adduct includes a nucleic acid having a lesion and a current modulating compound coupled to the nucleic acid at the lesion (110), and measuring a change in current through the channel in response to the current modulating compound to detect the lesion (112). The method can optionally include forming the nucleic acid adduct. Also provided is a method for identifying the number of repeat nucleotides in at least a portion of a nucleic acid strand, a method of assigning a registration marker within a nucleic acid, and a method of obtaining sequence information from a nucleic acid comprising assigning a registration marker on the nucleic acid.

Abstract: Methods, systems, and compounds for detecting modified nucleic acid bases are disclosed and described. The methods provide for detecting a nucleic acid lesion and can include directing a nucleic acid adduct into a channel, wherein the nucleic acid adduct includes a nucleic acid having a lesion and a current modulating compound coupled to the nucleic acid at the lesion (110), and measuring a change in current through the channel in response to the current modulating compound to detect the lesion (112). The method can optionally include forming the nucleic acid adduct. Also provided is a method for identifying the number of repeat nucleotides in at least a portion of a nucleic acid strand, a method of assigning a registration marker within a nucleic acid, and a method of obtaining sequence information from a nucleic acid comprising assigning a registration marker on the nucleic acid.

Abstract: Disclosed are compositions and methods related to modified nucleobases. Also disclosed are compositions and methods related to modified interfering RNAs. Also disclosed are compositions and methods related to modified adenonsine for controlling off-target effects in RNA interference.

Abstract: Methods, systems, and compounds for detecting modified nucleic acid bases are disclosed and described. The methods provide for detecting a nucleic acid lesion and can include directing a nucleic acid adduct into a channel, wherein the nucleic acid adduct includes a nucleic acid having a lesion and a current modulating compound coupled to the nucleic acid at the lesion (110), and measuring a change in current through the channel in response to the current modulating compound to detect the lesion (112). The method can optionally include forming the nucleic acid adduct. Also provided is a method for identifying the number of repeat nucleotides in at least a portion of a nucleic acid strand, a method of assigning a registration marker within a nucleic acid, and a method of obtaining sequence information from a nucleic acid comprising assigning a registration marker on the nucleic acid.

Abstract: Disclosed are compositions and methods related to modified nucleobases. Also disclosed are compositions and methods related to modified interfering RNAs. Also disclosed are compositions and methods related to modified guanine bases for controlling off-target effects in RNA interference.

Abstract: The invention relates to a compound comprising a labeled nickel complex (FIG. 1) that is used to detect and purify nucleic acid sequences by forming an adduct between a specific nucleic acid base and the labeled nickel complex.

Abstract: New steroidal polyamines have the structure of formula I or formula II: ##STR1## wherein R.sub.1 and R.sub.2 are independently N(R').sub.3.sup.+ or H in the .alpha.- or .beta.- position except both R.sub.1 and R.sub.2 are not H;R.sub.3 is N(R').sub.3.sup.+ in the .alpha.- position or hydrogenR.sub.4 is OH, N(R').sub.3, or NHC(NH.sub.2)NH.sub.2.sup.+R' is hydrogen, alkyl of one to four carbons, aralkyl, or combinations thereof.

Abstract: A process is provided for oxidatively modifying nucleic acids containing a target nucleotide. The nucleic acid is contacted with a polyaza metal complex in the presence of an oxidizing agent so that the nucleic acid is modified at or near the target nucleotide. Also provided are a kit for carrying out the process and a method for treating neoplastic growth by administering to a subject having neoplastic growth, an effective amount of a polyaza metal complex which is capable of modifying DNA.