Abstract: We describe a method to inhibit cell division of hyperproliferative cells, typically cancer cells, by introducing inhibitory RNA (RNAi) into said cells to ablate mRNAs that encode polypeptides involved in cellular processes and including RNAi molecules and vectors including transcription cassettes encoding said RNAi molecules. By application of said RNAi molecules to cancers in vivo it is possible to effect a treatment whereby the cancer cells are killed or otherwise eliminated.

Abstract: In one aspect, the present invention concerns an improved method for the preparation of cDNA libraries. Preferred embodiments of the invention include methods and systems capable of generating cDNA libraries enriched for high molecular weight cDNA inserts. The method generally entails the following steps: (1) size-based separation of a plurality of mRNA molecules by Ion-Pairing Reversed-Phase Chromatography (IP-RPC), preferably using HPLC under denaturing conditions; and (2) collection of a fraction of the mRNA molecules that is enriched for mRNA molecules of a desired size range (in a preferred embodiment of the invention, larger-sized mRNA molecules are collected, e.g., mRNA of length greater than 10 kb). The collected fraction of mRNA molecules can be reverse transcribed to form a library of cDNA inserts enriched for inserts of a desired relative size range.

Abstract: In one aspect, the present invention concerns an improved method for the preparation of cDNA libraries. Preferred embodiments of the invention include methods and systems capable of generating cDNA libraries enriched for high molecular weight cDNA inserts. The method generally entails the following steps: (1) size-based separation of a plurality of mRNA molecules by Ion-Pairing Reversed-Phase Chromatography (IP-RPC), preferably using HPLC under denaturing conditions; and (2) collection of a fraction of the mRNA molecules that is enriched for mRNA molecules of a desired size range (in a preferred embodiment of the invention, larger-sized mRNA molecules are collected, e.g., mRNA of length greater than 10 kb). The collected fraction of mRNA molecules can be reverse transcribed to form a library of cDNA inserts enriched for inserts of a desired relative size range.

Abstract: The instant invention provides a method for stabilizing an RNA molecule against degradation comprising applying a solution to a separation medium having a non-polar separation surface in the presence of a counterion agent, wherein the solution comprises the RNA molecule and an agent capable of catalyzing the degradation of RNA; eluting the RNA molecule from the separation medium by passing through the separation medium a mobile phase containing a concentration of organic solvent sufficient to elute the RNA molecule from the separation medium, where the elution is conducted under conditions that result in a substantial separation of the RNA molecule from the agent capable of catalyzing the degradation of RNA; and collecting an eluant fraction containing the RNA molecule that is substantially free of the agent capable of catalyzing the degradation of RNA. In a preferred embodiment the method is performed under conditions that are substantially free of multivalent cations.