Luminescent Proteins

Publication Title: 
Investigative Ophthalmology & Visual Science

PURPOSE: To investigate the migratory and contractile behavior of isolated human corneal fibroblasts in fibrillar collagen matrices. METHODS: A telomerase-infected, extended-lifespan human corneal fibroblast cell line (HTK) was transfected by using a vector for enhanced green fluorescent protein (GFP)-alpha-actinin. Cells were plated at low density on top of or within 100-microm-thick fibrillar collagen lattices. After 18 hours to 7 days, time-lapse imaging was performed.

Vishwanath, Mridula
Ma, Lisha
Otey, Carol A.
Jester, James V.
Petroll, W. Matthew
Publication Title: 
CNS & neurological disorders drug targets

The neural protein ?-synuclein aggregates both in vivo and in vitro to form insoluble fibrils that are involved in Parkinson's disease pathogenesis. We have generated ?-synuclein/fluorescent-protein fusion constructs overexpressed in muscle cells of the nematode, Caenorhabdtis elegans. Green Fluorescent Protein (GFP) variants, Cerulean (C) or Venus (V), were fused to the C-terminus of human ?-synuclein (S); the resultant fusion genes were designated SV and SC, plus a CV fusion as well as S, C and V singly. The aggregation behavior of the purified fusion proteins (expressed in E.

Bodhicharla, Rakesh
Nagarajan, Archana
Winter, Jody
Adenle, Ademola
Nazir, Aamir
Brady, Declan
Vere, Kelly
Richens, Jo
O'Shea, Paul
Bell, David R.
de Pomerai, David
Publication Title: 
PloS One

The cotton pest, pink bollworm (Pectinophora gossypiella (Saunders)), is a significant pest in most cotton-growing areas around the world. In southwestern USA and northern Mexico, pink bollworm is the target of the sterile insect technique (SIT), which relies on the mass-release of sterile pink bollworm adults to over-flood the wild population and thereby reduce it over time. Sterile moths reared for release are currently marked with a dye provided in their larval diet.

Walters, Michelle
Morrison, Neil I.
Claus, John
Tang, Guolei
Phillips, Caroline E.
Young, Robin
Zink, Richard T.
Alphey, Luke
Publication Title: 
Molecular imaging and biology: MIB: the official publication of the Academy of Molecular Imaging

PURPOSE: Angiogenesis is essential for physiological processes as well as for carcinogenesis. New approaches to cancer therapy include targeting angiogenesis. One target is VEGF-A and its receptor VEGFR2. In this study, we sought to investigate pancreatic cancer angiogenesis in a genetically modified VEGFR2-luc-KI mouse. PROCEDURES: Live in vivo bioluminescence imaging of angiogenesis was performed continuously until sacrifice in subcutaneous tumors as well as in orthotopically transplanted tumors. Tumor tissue was immunostained for CD-31 and VEGFR2.

Angst, Eliane
Chen, Monica
Mojadidi, Michelle
Hines, O. Joe
Reber, Howard A.
Eibl, Guido
Publication Title: 
Current biology: CB

Evolutionary models of aging propose that a trade-off exists between the resources an organism devotes to reproduction and growth and those devoted to cellular maintenance and repair, such that an optimal life history always entails an imperfect ability to resist stress. Yet, since environmental stressors, such as caloric restriction or exposure to mild stress, can increase stress resistance and life span, it is possible that a common genetic mechanism could regulate the allocation of resources in response to a changing environment (for overview, see ).

Henderson, S. T.
Johnson, T. E.
Publication Title: 
The Journal of Biological Chemistry

Na+/H+ exchangers are involved in cell volume regulation, fluid secretion and absorption, and pH homeostasis. NHX-2 is a Caenorhabditis elegans Na+/H+ exchanger expressed exclusively at the apical membrane of intestinal epithelial cells. The inactivation of various intestinal nutrient transport proteins has been shown previously to influence aging via metabolic potential and a mechanism resembling caloric restriction. We report here a functional coupling of NHX-2 activity with nutrient uptake that results in long lived worms.

Nehrke, Keith
Publication Title: 
The Journal of Neuroscience: The Official Journal of the Society for Neuroscience

14-3-3 is a family of regulatory proteins highly expressed in the brain. Previous invertebrate studies have demonstrated the importance of 14-3-3 in the regulation of synaptic functions and learning and memory. However, the in vivo role of 14-3-3 in these processes has not been determined using mammalian animal models. Here, we report the behavioral and electrophysiological characterization of a new animal model of 14-3-3 proteins. These transgenic mice, considered to be a 14-3-3 functional knock-out, express a known 14-3-3 inhibitor in various brain regions of different founder lines.

Qiao, Haifa
Foote, Molly
Graham, Kourtney
Wu, Yuying
Zhou, Yi
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