RIBONUCLEIC ACID SYNTHESIS DURING MITOSIS AND MEIOSIS IN THE MOUSE TESTIS

doi:10.1083/jcb.22.3.521

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ARTICLE

RIBONUCLEIC ACID SYNTHESIS DURING MITOSIS AND MEIOSIS IN THE MOUSE TESTIS

Valerio Monesi M.D.¹

¹ From the Laboratorio di Radiobiologia Animale, Centro Studi Nucleari Casaccia, Rome, Italy

The pattern of ribonucleic acid synthesis during germ celldevelopment, from the stem cell to the mature spermatid, wasstudied in the mouse testis, by using uridine-H³ or cytidine-H³labeling and autoradiography. Incorporation of tritiated precursorsinto the RNA occurs in spermatogonia, resting primary spermatocytes(RPS), throughout the second half of pachytene stage up to earlydiplotene, and in the Sertoli cells. Cells in leptotene, zygotene,and in the first half of pachytene stage do not synthesize RNA.No RNA synthesis was detected in meiotic stages later than diplotene,with the exception of a very low rate of incorporation in afraction of secondary spermatocytes and very early spermatids.At long intervals after administration of the tracer, as labeledcells develop to more mature stages, late stages of spermatogenesisalso become labeled. The last structures to become labeled arethe residual bodies of Regaud. Thus, the RNA synthesized duringthe active meiotic stages is partially retained within the cellduring further development. The rate of RNA synthesis declinesgradually with the maturation from type A to intermediate totype B spermatogonia and to resting primary spermatocytes. "Dormant"type A spermatogonia synthesize little or no RNA. The incorporationof RNA precursors occurs exclusively within the nucleus: atlater postinjection intervals the cytoplasm also becomes labeled.In spermatogonia all mitotic stages, except metaphase and anaphase,were shown to incorporate uridine-H³. RNA synthesis is thena continuous process throughout the cell division cycle in spermatogonia(generation time about 30 hours), and stops only for a veryshort interval (1 hour) during metaphase and anaphase.

Submitted on November 15, 1963

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