Methylphenidate, but not citalopram, decreases impulsive choice in rats performing a temporal discounting task.

Introduction: Drugs targeting monoamine systems remain the most common treatment for disorders with impulse control impairments. There is a body of literature suggesting that drugs affecting serotonin reuptake and dopamine reuptake can modulate distinct aspects of impulsivity - though such tests are often performed using distinct behavioral tasks prohibiting easy comparisons.

Methods: Here, we directly compare pharmacologic agents that affect dopamine (methylphenidate) vs serotonin (citalopram) manipulations on choice impulsivity in a temporal discounting task where rats could choose between a small, immediate reward or a large reward delayed at either 2 or 10s.

Identifying amino acid residues that contribute to the cellular-DNA binding site on retroviral integrase.

Although retroviral integrase specifically trims the ends of viral DNA and inserts these ends into any sequence in cellular DNA, little information is available to explain how integrase distinguishes between its two DNA substrates. We recently described novel integrase mutants that were improved for specific nicking of viral DNA but impaired at joining these ends into nonviral DNA. An acidic or bulky substitution at one particular residue was critical for this activity profile, and the prototypic protein--Rous sarcoma virus integrase with an S124D substitution--was defective at nonspecifically binding DNA.

Determination of log D via automated microfluidic liquid-liquid extraction.

A method for log D (pH 7.4) measurement was developed using microfluidic liquid-liquid extraction. Values were determined for 26 compounds and compared to results obtained via shake-flask methods.

Retroviral integrases that are improved for processing but impaired for joining.

Retroviral integrase specifically trims (or processes) the ends of retroviral DNA, then inserts (or joins) these ends into cellular DNA nonspecifically. We previously showed that Rous sarcoma virus integrase with a serine-to-aspartate substitution at amino acid 124 was markedly improved for processing but dramatically impaired for joining, making it the first mutant to separate the activities of integrase in this way. We now show that placing glutamic acid at this residue has the same effect, whereas asparagine or glutamine, which resemble aspartate and glutamate but without the negatively charged acid group, improved processing and impaired joining to a lesser extent.