Results 1 to 14 of 14
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TypeTitleAuthor(s)YearViews
Expression and protein-binding studies of the EEN gene family, new interacting partners for dynamin, synaptojanin and huntingtin proteinsSo, CW; Sham, MH; Chew, SL; Cheung, N; So, CKC; Chung, SK; Caldas, C; Wiedemann, LM; Chan, LC2000121
 
Expression and functional studies of a SH3 domain containing gene family, EEN family, and their implications in leukemogenesisSo, CW; Sham, MH; Wiedemann, LM; Chan, LC199958
 
Exon scrambling of MLL transcripts occur commonly and mimic partial genomic duplication of the geneCaldas, C; So, CW; Macgregor, A; Ford, AM; Mcdonald, B; Chan, LC; Wiedemann, LM199895
 
MLL self fusion mediated by Alu repeat homologous recombination and prognosis of AML-M4/M5 subtypesSo, CW; Ma, ZG; Price, CM; Dong, S; Chen, SJ; Gu, LJ; So, CKC; Wiedemann, LM; Chan, LC1997224
 
EEN encodes for a member of a new family of proteins containing an Src homology 3 domain and is the third gene located on chromosome 19p13 that fuses to MLL in human leukemiaSo, CW; Caldas, C; Liu, MM; Chen, SJ; Huang, QH; Gu, LJ; Sham, MH; Wiedemann, LM; Chan, LC1997236
 
Chromosome rearrangement, oncogene activation, and other clonal events in cancer: Their use in molecular diagnosticsWiedemann, LM; Mccarthy, KP; Chan, LC199150
 
A case of M-BCR-rearranged, Philadelphia-positive AML that relapsed as chronic phase CMLMorgan, GJ; Wiedemann, LM; Chan, LC; Price, CM; Kanfer, EJ; Galton, DAG199058
 
The role of alternative splicing patterns of BCR/ABL transcripts in the generation of the blast crisis of chronic myeloid leukaemiaMorgan, GJ; Hernandez, A; Chan, LC; Hughes, T; Martiat, P; Wiedemann, LM199094
 
The correlation of breakpoint cluster region rearrangement and p210 phl/abl expression with morphological analysis of Ph-negative chronic myeloid leukemia and other myeloproliferative diseasesWiedemann, LM; Karhi, KK; Shivji, MKK; Rayter, SI; Pegram, SM; Dowden, G; Bevan, D; Will, A; Galton, DAG; Chan, LC1988122
 
Involvement of the D segment (DQ52) nearest to the JH region in immunoglobulin gene rearrangements of lymphoid-cell precursors.Mizutani, S; Ford, TM; Wiedemann, LM; Chan, LC; Furley, AJ; Greaves, MF; Molgaard, HV198757
 
Molecular biology of Philadelphia chromosome in chronic granulocytic leukaemia and acute lymphoblastic leukaemiaEridani, S; Wiedemann, LM; Chan, LC; Dalton, RG; Karhi, KK198772
 
Similar molecular alterations occur in related leukemias with and without the Philadelphia chromosome.Wiedemann, LM; Karhi, K; Chan, LC198742
 
Molecular lesion in chronic granulocytic leukemia is highly conserved despite ethnic and geographical variationChan, LC; Chen, PM; Powles, R; Saragas, E; Wiedemann, LM; Groffen, J; Greaves, MF1987108
 
Rearrangement of immunoglobulin heavy chain genes in human T leukaemic cells shows preferential utilization of the D segment (DQ52) nearest to the J region.Mizutani, S; Ford, AM; Wiedemann, LM; Chan, LC; Furley, AJ; Greaves, MF; Molgaard, HV1986107
 
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