The minor allele of the serotonin transporter gene variant rs4251417 is associated with increased resilience in soldiers experiencing acute stress during survival training: preliminary findings.

Background: Variation in cognitive, emotional and physical performance in response to stress is attributable to environmental and genetic factors. Ability to adapt to stress is resilience.

Objectives: This study investigated genetic factors associated with resilience in soldiers exposed to severe stress due to intense physical and mental demands at Survive, Evade, Resist and Escape school, a unique environment to study acute stress and resiliency in real-world circumstances.

Analysis of complex DNA mixtures using massively parallel sequencing of SNPs with low minor allele frequencies.

DNA mixtures from 3 or more contributors have proven difficult to analyze using the current state-of-the-art method of short-tandem repeat (STR) amplification followed by capillary electrophoresis (CE). Here we analyze samples from both laboratory-defined mixtures and complex multi-contributor touch samples using a single nucleotide polymorphism (SNP) panel comprised of 2311 low-minor-allele-frequency loci, combined with massively parallel sequencing (MPS). This approach demonstrates that as many as 10 people can be identified in touch samples using a threshold of -Log P(RMNE) of 6, and a detection rate of 18-94 % across 10 different materials using a threshold of -Log P(RMNE) of 2.

Association Between Single Gene Polymorphisms and Bone Biomarkers and Response to Calcium and Vitamin D Supplementation in Young Adults Undergoing Military Training.

Initial military training (IMT) is associated with increased stress fracture risk. In prior studies, supplemental calcium (Ca) and vitamin D provided daily throughout IMT reduced stress fracture incidence, suppressed parathyroid hormone (PTH), and improved measures of bone health compared with placebo. Data were analyzed from a randomized, double-blind, placebo-controlled trial to determine whether single-nucleotide polymorphisms (SNPs) in Ca and vitamin D-related genes were associated with circulating biomarkers of bone metabolism in young adults entering IMT, and whether responses to Ca and vitamin D supplementation were modulated by genotype.

Robust detection of individual forensic profiles in DNA mixtures.

For a forensic identification method to be admissible in international courts, the probability of false match must be quantified. For comparison of individuals against complex mixtures using a panel of single nucleotide polymorphisms (SNPs), the probability of a random man not excluded, P(RMNE) is one admissible standard. While the P(RMNE) of SNP alleles has been previously studied, it remains to be rigorously defined and calculated for experimentally genotyped mixtures.

Improving the long-term storage of a mammalian biosensor cell line via genetic engineering.

The unique properties of mammalian cells make them valuable for a variety of applications in medicine, industry, and diagnostics. However, the utility of such cells is restricted due to the difficulty in storing them non-frozen for an extended time and still maintaining their stability and responsiveness. In order to extend the active life span of a mammalian biosensor cell line at room and refrigerated temperatures, we have over expressed genes that are reported to provide protection from apoptosis, stress, or oxidation.

A B cell-based sensor for rapid identification of pathogens.

We report the use of genetically engineered cells in a pathogen identification sensor. This sensor uses B lymphocytes that have been engineered to emit light within seconds of exposure to specific bacteria and viruses. We demonstrated rapid screening of relevant samples and identification of a variety of pathogens at very low levels.

Multiple functional domains of AML1: PU.1 and C/EBPalpha synergize with different regions of AML1.

Control elements of many genes are regulated by multiple activators working in concert to confer the maximal level of expression, but the mechanism of such synergy is not completely understood. The promoter of the human macrophage colony-stimulating factor (M-CSF) receptor presents an excellent model with which we can study synergistic, tissue-specific activation for two reasons. First, myeloid-specific expression of the M-CSF receptor is regulated transcriptionally by three factors which are crucial for normal hematopoiesis: PU.

PU.1 (Spi-1) and C/EBP alpha regulate expression of the granulocyte-macrophage colony-stimulating factor receptor alpha gene.

Growth factor receptors play an important role in hematopoiesis. In order to further understand the mechanisms directing the expression of these key regulators of hematopoiesis, we initiated a study investigating the transcription factors activating the expression of the granulocyte-macrophage colony-stimulating factor (GM-CSF) receptor alpha gene. Here, we demonstrate that the human GM-CSF receptor alpha promoter directs reporter gene activity in a tissue-specific fashion in myelomonocytic cells, which correlates with its expression pattern as analyzed by reverse transcription PCR.

Monocyte chemoattractant protein-1 gene is expressed in activated neutrophils and retinoic acid-induced human myeloid cell lines.

We have used differential display polymerase chain reaction to identify genes that are upregulated after retinoic acid (RA) treatment of human myeloblastic HL-60 cells. Three of the cDNAs cloned hybridized to RA-inducible transcripts on Northern blots, one of which was shown to encode sequences for monocyte chemoattractant protein-1 (MCP-1), a recently described cytokine that is chemotactic for monocytes but not for neutrophils. Nuclear run-on analysis indicated that the upregulation of the MCP-1 gene occurs at the transcriptional level in HL-60 cells.

Carboxyhemoglobin and brain blood flow in humans.

It has been shown that with increased carboxyhemoglobin (COHb) and associated decrease in blood oxygen-carrying capacity, a compensatory increase in brain-blood flow (BBF) develops. The BBF response in humans has been shown to be quite variable. Two experiments were conducted in which humans were exposed to sufficient carbon monoxide (CO) to produce COHb levels up to 18.

Continuous noninvasive monitoring of left ventricular function during exercise by thoracic impedance cardiography-automated derivation of systolic time intervals.

Systolic time intervals (STI) obtained during exercise are useful as a method of estimating global left ventricular function. The conventional method, however, which requires a carotid pulse tracing as well as a phonocardiogram of high quality, is technically difficult under conditions of exercise. We have validated a new method of obtaining STI which employs the first derivative of thoracic electrical impedance (DZ/DT).

A comprehensive cardiac exercise stress processor for environmental health effects studies.

We have shown that an interactive microcomputer system using noninvasive cardiovascular measurements during exercise is both possible and practical. Experimental use of the system has verified our choice of variables as appropriate for automatic generation of a cardiovascular data base, but additional studies are required to determine the system's sensitivity for assessing health-effect decrements.

An analogue echogram range gate tracker for clinical echocardiography.

The fundamental purpose of this paper is to present the results of a feasibility study for an on-line, real-time automatic range gate tracker (ARGT) for clinical echocardiography, specifically for the purpose of determining cardiac output noninvasively and in real time. The basic ARGT design represents an implementation of specific algorithms and a system controller that permit user interaction and interpretation of clinical echocardiograms. In its analytical mode, the ARGT automatically tracks cardiac echoes as visually perceived and selected by the user.