Possible causes of variation in trivalent orientation frequencies in pearl millet and rye

Abstract

In pearl millet, chain trivalents composed of two telocentric and one metacentric chromosomes, showed an excess of linear orientation over the 1/3 expected with random centromere activation and inactivity of a central centromere stretched between the two outer centromeres. Chain trivalents composed of two metacentrics and one telo or of three metacentrics behaved as predicted. The difference was explained by assuming precocious activation of completely terminal centromeres as opposed to median centromeres. This early activity was reflected in precocious separation at late metaphase. In rye, all trivalents composed of two telos and one metacentric showed alternate orientation and anaphase separation did not precede that of metacentric chromosomes. It is concluded that in rye terminal centromeres are not precocious and that the spindle at meiosis is not long enough to permit stretching of the central centromere, which consequently always has the opportunity to orient and to induce the other centromeres to choose the opposite pole either directly or after reorientation, accumulating the most stable (alternate) orientation type.