1,721,034 research outputs found
DOLICHOS BIFLORUS AGGLUTININ RECEPTORS IN MOUSE MUSCLE .2. BIOCHEMICAL-PROPERTIES IN RELATION TO MOLECULAR-FORMS OF ACETYLCHOLINESTERASE
No full textKAUPMANN K, Jockusch H. DOLICHOS BIFLORUS AGGLUTININ RECEPTORS IN MOUSE MUSCLE .2. BIOCHEMICAL-PROPERTIES IN RELATION TO MOLECULAR-FORMS OF ACETYLCHOLINESTERASE. EUROPEAN JOURNAL OF CELL BIOLOGY. 1988;46(3):419-424
Dolichos Biflorus agglutinin receptors in mouse muscle. 1. Developmental esxpression in relation to synaptic acetylcholinesterase and to neuromuscular disease
No full textKaupmann K, Heimann P, Jockusch H. Dolichos Biflorus agglutinin receptors in mouse muscle. 1. Developmental esxpression in relation to synaptic acetylcholinesterase and to neuromuscular disease. Eur J Cell Biol. 1988;46(3):411-418
CHROMOSOMAL LOCALIZATION AND GENOMIC CLONING OF THE MOUSE ALPHA-TROPOMYOSIN GENE TPM-1
No full textSCHLEEF M, WERNER K, SATZGER U, KAUPMANN K, Jockusch H. CHROMOSOMAL LOCALIZATION AND GENOMIC CLONING OF THE MOUSE ALPHA-TROPOMYOSIN GENE TPM-1. GENOMICS. 1993;17(2):519-521
CHROMOSOMAL LOCALIZATION OF THE MOUSE TITIN GENE AND ITS RELATION TO MUSCULAR-DYSTROPHY WITH MYOSITIS AND NEBULIN GENES ON CHROMOSOME-2
No full textMULLER-SEITZ M, KAUPMANN K, LABEIT S, Jockusch H. CHROMOSOMAL LOCALIZATION OF THE MOUSE TITIN GENE AND ITS RELATION TO MUSCULAR-DYSTROPHY WITH MYOSITIS AND NEBULIN GENES ON CHROMOSOME-2. GENOMICS. 1993;18(3):559-561
THE MOUSE HOMOLOG TO THE RAS-RELATED YEAST GENE YPT1 MAPS ON CHROMOSOME-11 CLOSE TO THE WOBBLER (WR) LOCUS
No full textWICHMANN H, Jockusch H, GUENET JL, GALLWITZ D, KAUPMANN K. THE MOUSE HOMOLOG TO THE RAS-RELATED YEAST GENE YPT1 MAPS ON CHROMOSOME-11 CLOSE TO THE WOBBLER (WR) LOCUS. MAMMALIAN GENOME. 1992;3(8):467-468
THE GENE FOR THE CELL-ADHESION MOLECULE M-CADHERIN MAPS TO MOUSE CHROMOSOME-8 AND HUMAN-CHROMOSOME 16Q24.1-QTER AND IS NEAR THE E-CADHERIN (UVOMORULIN) LOCUS IN BOTH SPECIES
No full textKAUPMANN K, BECKERFOLLMANN J, SCHERER G, Jockusch H, STARZINSKIPOWITZ A. THE GENE FOR THE CELL-ADHESION MOLECULE M-CADHERIN MAPS TO MOUSE CHROMOSOME-8 AND HUMAN-CHROMOSOME 16Q24.1-QTER AND IS NEAR THE E-CADHERIN (UVOMORULIN) LOCUS IN BOTH SPECIES. GENOMICS. 1992;14(2):488-490
ASSIGNMENT OF MUSCLE CADHERIN (MCAD) TO HUMAN-CHROMOSOME 16Q24-QTER AND TO MOUSE CHROMOSOME-8, AND OF PLACENTAL CADHERIN (PCAD) - LIKE SEQUENCES PCADLI TO 16Q22.1 AND PCADL2 TO 16Q24-QTER
No full textBECKERFOLLMANN J, KAUPMANN K, VESTWEBER D, Jockusch H, STARZINSKIPOWITZ A, SCHERER G. ASSIGNMENT OF MUSCLE CADHERIN (MCAD) TO HUMAN-CHROMOSOME 16Q24-QTER AND TO MOUSE CHROMOSOME-8, AND OF PLACENTAL CADHERIN (PCAD) - LIKE SEQUENCES PCADLI TO 16Q22.1 AND PCADL2 TO 16Q24-QTER. CYTOGENETICS AND CELL GENETICS. 1992;60(3-4):168
WOBBLER, A MUTATION AFFECTING MOTONEURON SURVIVAL AND GONADAL FUNCTIONS IN THE MOUSE, MAPS TO PROXIMAL CHROMOSOME-11
No full textKAUPMANN K, SIMONCHAZOTTES D, GUENET JL, Jockusch H. WOBBLER, A MUTATION AFFECTING MOTONEURON SURVIVAL AND GONADAL FUNCTIONS IN THE MOUSE, MAPS TO PROXIMAL CHROMOSOME-11. GENOMICS. 1992;13(1):39-43
THE GENE FOR CILIARY NEUROTROPHIC FACTOR (CNTF) MAPS TO MURINE CHROMOSOME 19 AND ITS EXPRESSION IS NOT AFFECTED IN THE HEREDITARY MOTONEURON DISEASE WOBBLER OF THE MOUSE
No full textKAUPMANN K, SENDTNER M, STOCKLI KA, Jockusch H. THE GENE FOR CILIARY NEUROTROPHIC FACTOR (CNTF) MAPS TO MURINE CHROMOSOME 19 AND ITS EXPRESSION IS NOT AFFECTED IN THE HEREDITARY MOTONEURON DISEASE WOBBLER OF THE MOUSE. EUROPEAN JOURNAL OF NEUROSCIENCE. 1991;3(11):1182-1186.The cDNA for ciliary neurotrophic factor (CNTF), a polypeptide involved in the survival of motoneurons in mammals, has recently been cloned (Stockli et al., Nature, 342, 920-923, 1989; Lin et al., Science, 246, 1023-1025, 1989). We have now localized the corresponding gene Cntf to chromosome 19 in the mouse, using an interspecific cross between Mus spretus and Mus musculus domesticus. The latter was carrying the gene wobbler (wr) for spinal muscular atrophy. DNA was prepared from backcross individuals and typed for the segregation of species-specific Cntf restriction fragments in relation to DNA markers of known chromosomal location. The M.spretus allele of Cntf cosegregated with chromosome 19 markers and mapped closely to Ly-1, to a region of mouse chromosome 19 with conserved synteny to human chromosome 11q. Cntf is not linked to wr, and the expression of CNTF mRNA and protein appears close to normal in facial and sciatic nerves of affected (wr/wr) mice, suggesting that motoneuron degeneration of wobbler mice has its origin in defects other than reduced CNTF expression
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