Surface labeling studies of normal and dystrophic myogenic cells in culture

In the early stages of Duchenne muscular dystrophy, chronic muscle degeneration is counterbalanced by regeneration whose progressive failure beyond the fifth year is attributed to an accelerated senescence associated with excessive myogenic cell division. This idea was tested by counting the numbers

## Abstract Two normal and seven malignant human glia lines grown in vitro were labelled by lactoperoxidase catalysed iodination. The labelled cell surface glycoproteins were isolated by lectin affinity chromatography and compared by SDS gel electrophoresis. The glia and the glioma lines possess a

Since mdx limb muscle regeneration in vivo is accompanied by rapid myoblast proliferation and differentiation compared to normal, we tested the possibility that proliferation and differentiation were differentially regulated in normal and mdx dystrophic muscle cells. Cell cycle behavior, MyoD expres

## Abstract Immunological and chemical studies of cell surfaces from normal and transformed BALB/c fibroblasts have shown alterations associated with transformation. The cells studied include normal lines which do not cause tumors when injected into BALB/c mice, viral transformants, and spontaneous

## Abstract Serially‐propagated growing heteroploid and growing diploid cell cultures do not survive incubation at 42° for 24 hours, whereas contact‐inhibited diploid monolayers are still viable after at least nine days at this elevated temperature. Heat‐treated heteroploid HeLa cells and growing d