Howard Hughes Medical Institute scientists
utilized mouse studies to suggest that a receptor called Oprl1 is altered in mice with PTSD - like symptoms.
Not exact matches
The UT Health San Antonio scientists are
utilizing a
mouse model that is a controlled way to
study chlamydia transmission.
Metabolic Phenotyping: The
Mouse Metabolic Phenotyping Center (MMPC) at Case Western Reserve University specializes in hyperinsulinemic euglycemic glucose clamps, glucose tolerance tests, total energy expenditure at rest and exercise, lipid or collagen turnover
studies utilizing the incorporation of 2H from 2H - enriched body water, feeding
studies, acute or chronic vascular catheterization, activity monitoring, etc..
In their
study «D - Serine and Serine Racemase are Localized to Neurons in the Adult
Mouse and Human Forebrain,» the lab
utilized SR deficient (SR - / --RRB-
mice, which have < 15 % of normal D - serine levels, to validate and optimize a D - serine immunohistochemical method.
In this
study we
utilized a
mouse monoclonal anti-PD-L1 antibody (5H1 clone) which was previously produced through immunization of BALB / c
mice with human PD - L1 Ig.
We previously
utilized the Rag2 − / − γc − / −
mice to
study whether the HPCs permanently engraft in an environment that lacks T, B or NK cells.
In agreement with the hypothesis that such adaptations are due to epigenetic changes occurring during preimplantation, we have detected epigenetic labile genes in the
mouse embryo genomes that allow us to
study the best IVC method to produce competent and healthy embryos to ensure that assisted reproductive technologies are
utilized in the most efficient and safest possible manner.
This
study therefore characterizes the structural and cellular bone phenotype in a
mouse model of autism that can be further
utilized to investigate therapeutic avenues to treat bone fractures in children with autism.
This protocol was
utilized for identifying the Idua genotype of the
mice utilized in this
study.
Utilizing sophisticated genetically engineered
mouse models, we will
study how these conserved longevity pathways regulate the homeostasis and aging of adult stem cells, including hematopoietic stem cells, the adult stem cells that sustain all blood lineages throughout life.