Mouse embryonic stem (ES) cells are used for generating knockout and knockin mouse models, which are crucial for biomedical research as well as pre-clinical studies.
Researchers in the laboratory of Dr. Michael Cleary at Stanford University have developed anti-Pbx1a monoclonal antibodies to study transcriptional regulation, embryonic development, and tissue homeostasis.
Researchers in the laboratory of Dr. Michael Cleary at Stanford University have developed anti-Pbx3a monoclonal antibodies to study transcriptional regulation and embryonic development.
Researchers in the laboratory of Dr. Michael Cleary at Stanford University have developed anti-Pbx3b monoclonal antibodies to study transcriptional regulation and embryonic development.
Researchers in the laboratory of Dr. Michael Cleary at Stanford University have developed anti-Pknox monoclonal antibodies to study transcriptional regulation, embryonic development, and tissue homeostasis.
Monoclonal antibody that recognizes MLL, an oncoprotein that is mutated in a broad subset of pediatric and adult leukemias. MLL protein displays histone methyltransferase activity.
Monoclonal antibody that recognizes MLL, an oncoprotein that is mutated in a broad subset of pediatric and adult leukemias. MLL protein displays histone methyltransferase activity.
Researchers in the laboratory of Dr. Michael Cleary at Stanford University have developed anti-Meis monoclonal antibodies to study transcriptional regulation, embryonic development, and tissue homeostasis.