Sodium and rubidium uptake in cells transformed by Rous sarcoma virus

## Abstract Chicken embryo fibroblasts and hamster BHK cells transformed by Rous sarcoma virus (RSV) release in their culture media growth factors which enhance markedly anchorage‐independent colony formation in gelified medium, at the restrictive temperature (41°5 C), of chicken embryo fibroblasts

## Abstract A nontransformed line of Chinese hamster ovary (CHO) cells (Pollard and Stanners, 1979) has been transformed by the Schmidt‐Ruppin subgroup D strain of Rous sarcoma virus (SR‐RSV). SR‐RSV transformed CHO cells are shown to differ from spontaneously transformed cells in that the virally

## Abstract Biotin or a serum lipid extract stimulated proliferation of G1 arrested Rous sarcoma virus‐transformed BHK cells in modified Eagle's MEM (BM). The cells could be maintained continuously in BM plus biotin (BMB), but not in BM plus serum lipid extract (BM · L). Avidin inhibited growth sti

The induction of Rous sarcoma virus f RS V ] production was analyzed in mi-ved cultures of mouse or hamster Rous sarcoma cells and chick embryo cells treated with ultraviolet inactivated hemagglutinating virus of Japan ( U V-H V J ) . The pre-treatment of UV-HVJ with a certain concentration of anti-

## Abstract Observations of cells transformed by the Bryan strain of Rous sarcoma virus (RSV‐BH) suggested that the intracellular concentrations of sodium ion (Na+) may play a critical role in cellular metabolism. In an attempt to manipulate intracellular Na+, chick embryo cells were exposed to gra

## Abstract Avian sarcoma virus (ASV)‐transformed mammalian cells, known to be either virus‐producing, virogenic or non‐virogenic, were tested for viral gene products: for p27 by radioimmunoassay and for group‐specific (gs) antigens by the complement fixation test. Clones of B77 virus‐producing RBI