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M3 Muscarinic Receptor Knockout Mice (Chrm3 tm1Jwe) for the Study of Obesity and Other Metabolic Disorders
The five Muscarinic Acetylcholine (ACh) receptors are G-protein coupled receptors (M1R-M5R). M3 muscarinic ACh receptors are present in the central nervous system and the periphery. M3R knockout mice are viable and fertile, and have no major morphological abnormalities. They have a lean phenotype due to a combination of reduced caloric intake and...
Published: 7/25/2024
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Inventor(s):
Jurgen Wess
Keywords(s):
ACXXXX
,
AXXXXX
,
Discovery
,
DOUBLE
,
DRUG
,
Generation
,
ID1XXX
,
IDXXXX
,
IXXXXX
,
KnockoutKO
,
M1/M3
,
M1/M4
,
M2/M3
,
M2/M4
,
Mice:
,
MUSCARINIC
,
Novel
,
RECEPTOR
,
TOOLS
Category(s):
Collaboration Sought > Licensing
,
Application > Research Materials
,
Application > Diagnostics
,
Application > Therapeutics
Stat5a Knockout (Stat5atm1Mam) Mouse Model for Mammopoietic and Lactogenic Signaling Studies
Stat 5a Knockout: Stat5a deficiency results in the loss of prolactin-dependent mammary gland development and lactogenesis. Prolactin induces mammary gland development and lactogenesis. Binding of Prolactin to its receptor leads to the phosphorylation and activation of STAT (signal transducers and activators of transcription) proteins. Two Stat proteins,...
Published: 7/25/2024
|
Inventor(s):
Lothar Hennighausen
Keywords(s):
GC1XXX
,
GCXXXX
,
GXXXXX
,
ID1XXX
,
IDXXXX
,
IXXXXX
,
Knock
,
Mouse
,
RXXXXX
,
STAT5A
,
Tm1Mam
Category(s):
Collaboration Sought > Licensing
,
Application > Therapeutics
,
Application > Research Materials
,
Application > Diagnostics
Stat5a LoxP/Stat5b LoxP (Stat5a/Stat5btm2Mam) Mouse Model for Mammopoietic and Lactogenic Signaling Studies
Conditional knockout of Stat5a and Stat5b: Combined deletion of conserved Stat5a and Stat5b in mammary epithelium at different times during pregnancy reveal multiple distinct functions. The signal transducer and activator of transcription (STAT) family of transcription factors conveys signals from membrane receptors to the nucleus, where they activate...
Published: 7/25/2024
|
Inventor(s):
Lothar Hennighausen
Keywords(s):
ACXXXX
,
AXXXXX
,
ID1XXX
,
IDXXXX
,
IXXXXX
,
LOXP
,
LoxP/Stat5b
,
Mouse
,
R1XXXX
,
RXXXXX
,
STAT5A
,
Stat5a/Stat5b
,
Tm2Mam
Category(s):
Collaboration Sought > Licensing
,
Application > Therapeutics
,
Application > Diagnostics
,
Application > Research Materials
Transgenic Mice Expressing CNO-sensitive Gq- or Gs-coupled Designer Receptors Selectively in Pancreatic Beta Cells
Impaired functioning of pancreatic beta cells is a key hallmark of type 2 diabetes. Beta cell function is modulated by the actions of different classes of heterotrimeric G proteins. The functional consequences of activating specific beta cell G protein signaling pathways in vivo are not well understood at present, primarily due to the fact that beta...
Published: 7/25/2024
|
Inventor(s):
Jean-Marc Guettier
,
Jurgen Wess
Keywords(s):
=
,
Beta-RASSL-1
,
Beta-RASSL-2
,
ID1XXX
,
Mice
,
RIPII-RQ
,
RIPII-Rs
,
TRANSGENIC
,
VFXXXX
,
YCXXXX
Category(s):
Collaboration Sought > Collaboration
,
TherapeuticArea > Endocrinology
,
Application > Research Materials
Triazole Derivatives of 4,7-disubstituted 2 naphthoic acid (PPTN) as P2Y14 Receptor Antagonists
The Molecular Recognition Section of NIDDK announces the availability of a novel triazole-based probes, structures which act as antagonists at human P2Y14 receptors. Although the physiologic functions of this receptor remain undefined, recently it has been strongly implicated in immune and inflammatory responses. Prior work with a 4,7-disubstituted...
Published: 7/25/2024
|
Inventor(s):
Evgeny Kiselev
,
Elisa Uliassi
,
Anna Junker
,
Kenneth Jacobson
Keywords(s):
Alkyne
,
ANTAGONISTS
,
IB3XXX
,
IB4XXX
,
ID1XXX
,
P2Y14
,
Patent Category - Chemistry
,
Probe
,
RECEPTOR
,
small molecule
,
Structure-based
,
Triazole
,
VFXXXX
,
WIXXXX
,
WKXXXX
,
XHXXXX
,
YBXXXX
Category(s):
Collaboration Sought > Collaboration
,
Application > Therapeutics
,
TherapeuticArea > Endocrinology
,
ResearchProducts > Research Equipment
,
TherapeuticArea > Immunology
,
TherapeuticArea > Pulmonology
,
Application > Research Materials
Immortalized Stria Vascularis Cell Line SV-k1
Available for nonexclusive licensing for research uses is the cell line, SV-k1, derived from the Organ of Corti. The line was developed from the stria vascularis, an organ localized on the lateral wall of the cochlea, adjacent to the Organ of Corti, containing cell populations specialized in the production of an endolymph very rich in K+ characteristic...
Published: 7/25/2024
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Inventor(s):
Federico Kalinec
,
Gilda Canseco De Kalinec
Keywords(s):
ID1XXX
,
IDXXXX
,
immortalized
,
RESEARCH MATERIAL
,
research reagent
,
RESEARCH TOOL
,
Stria
,
SV-k1
,
Vascularis
,
VPXXXX
,
WIXXXX
Category(s):
Collaboration Sought > Licensing
,
TherapeuticArea > Ophthalmology
,
Application > Research Materials
,
TherapeuticArea > Oncology
,
TherapeuticArea > Cardiology
,
TherapeuticArea > Infectious Disease
,
TherapeuticArea > Endocrinology
,
TherapeuticArea > Dental
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