Mapping uterine calcium dynamics during the ovulatory cycle in live mice.

Uterine contraction patterns vary during the ovulatory cycle and throughout pregnancy, but prior measurements have produced limited and conflicting information on these patterns. We combined a virally delivered genetically encoded calcium reporter (GCaMP8m) and ultra-widefield imaging in live nonpregnant mice to characterize uterine calcium dynamics at organ scale throughout the estrous cycle. Prior to ovulation (proestrus and estrus), uterine excitations primarily initiated in a region near the oviduct, but after ovulation (metestrus and diestrus), excitations initiated at loci homogeneously distributed throughout the organ.

Mapping uterine calcium dynamics during the ovulatory cycle in live mice.

Uterine contraction patterns vary during the ovulatory cycle and throughout pregnancy but prior measurements have produced limited and conflicting information on these patterns. We combined a virally delivered genetically encoded calcium reporter (GCaMP8m) and ultra-widefield imaging in live nonpregnant mice to characterize uterine calcium dynamics at organ scale throughout the estrous cycle. Prior to ovulation (proestrus and estrus) uterine excitations primarily initiated in a region near the oviduct, but after ovulation (metestrus and diestrus), excitations initiated at loci homogeneously distributed throughout the organ.

Validation of algorithms to identify adverse perinatal outcomes in the Medicaid Analytic Extract database.

Background: The Medicaid Analytic eXtract (MAX) is a health care utilization database from publicly insured individuals that has been used for studies of drug safety in pregnancy. Claims-based algorithms for defining many important maternal and neonatal outcomes have not been validated.

Objective: To validate claims-based algorithms for identifying selected pregnancy outcomes in MAX using hospital medical records.

Sphingomyelinase D inhibits store-operated Ca2+ entry in T lymphocytes by suppressing ORAI current.

Infections caused by certain bacteria including Mycobacterium tuberculosis and Corynebacterium pseudotuberculosis provoke inflammatory responses characterized by the formation of granulomas with necrotic foci-so-called caseous necrosis. The granulomas of infected animals show prominent infiltration by T lymphocytes, and T cell depletion increases host mortality. Notorious zoonotic C.

Justice for the average Joe: the role of envy and the mentalizing network in the deservingness of others' misfortunes.

The misfortunes of enviable individuals are met by observers with pleasure whereas those of "average", non-enviable individuals elicit pain. These responses are mirrored in deservingness judgments, as enviable individuals' misfortunes are perceived as deserved and those of non-enviable individuals perceived as undeserved. However, the neural underpinnings of these deservingness disparities remain unknown.

Tuning voltage-gated channel activity and cellular excitability with a sphingomyelinase.

Voltage-gated ion channels generate action potentials in excitable cells and help set the resting membrane potential in nonexcitable cells like lymphocytes. It has been difficult to investigate what kinds of phospholipids interact with these membrane proteins in their native environments and what functional impacts such interactions create. This problem might be circumvented if we could modify specific lipid types in situ.

Post-translational regulation and nuclear entry of TIMELESS and PERIOD are affected in new timeless mutant.

The molecular circadian clock consists of a feedback loop in which canonical clock proteins negatively regulate transcription of their own genes. Timed nuclear entry of these proteins is critical, but regulation of this event is poorly understood. In Drosophila melanogaster, the idea that nuclear entry of PERIOD (PER) is controlled by its partner protein TIMELESS (TIM) has been challenged by several studies.

Extended peptoids: a new class of oligomers based on aromatic building blocks.

Peptoids (N-substituted polyglycines) represent a class of bioinspired oligomers that have unique physical and structural properties. Here we report the construction of "extended peptoids" based on aromatic building blocks, in which the N-alkylaminoacetyl group of the peptoid backbone has been replaced by an N-alkylaminomethylbenzoyl spacer. Both meta- and para-bromomethylbenzoic acids were synthesized, providing access to a new class of peptoids.

Uncovering genetic relationships using small molecules that selectively target yeast cell cycle mutants.

Genetic analysis in budding yeast has shown that multiple G1 cyclins and cyclin-dependent kinases control cell cycle entry, polarized growth, and spindle pole duplication. The G1 cyclins Cln1 and Cln2 associate with the cyclin-dependent kinase Cdc28 to facilitate cell cycle progression and development of the cleavage apparatus. We have developed a chemical genetic approach toward the discovery of compounds that target G1 control pathways by screening for compounds that selectively kill a yeast strain lacking the G1 cyclins Cln1 and Cln2.