ON THE MECHANISM OF CHROMATIN LOSS INDUCED BY THE B CHROMOSOME OF MAIZE

ON THE MECHANISM OF CHROMATIN LOSS INDUCED BY THE B CHROMOSOME OF MAIZE

M. M. Rhoades ¹ and Ellen Dempsey ¹

¹ Department of Botany, Indiana University, Bloomington, Indiana 47401

Knobbed regions of the regular maize complement frequentlyare eliminated at the second microspore division in spores whichhave two or more B chromosomes. Evidence is presented that noor little loss occurs in spores with one B and that the rateis not increased in spores with more than two B's.—TheB chromosomes from an unrelated strain proved as effective ininducing loss as did the B's of the original high loss stock.—Chromatinloss induced by B's is restricted to knobbed A chromosomes andoccurs only at the second microspore division. Knobbed chromosomes3, 5, and 9 have been tested and all interact with B's to giveloss. Chromosomes with large knobs are more frequently brokenthan are those with smaller knobs and knobless chromosomes shownegligible loss.—Although knobs and B's are essential forchromatin elimination, modifying genes can markedly affect therate of loss.——Two knobbed heterologous chromosomesundergo simultaneous loss more frequently than expected fromindependent events. The data indicate that joint loss occursin competent cells and that preferential assortment of the twodeficient chromosomes to specific poles is unlikely.—Bchromosomes and deficient chromosomes assort independently atthe second microspore anaphase.—Genetic data from crosseswith marker genes in both arms of chromosome 3 show that breakageof the postulated dicentric bridge does not occur solely atthe centric region since a variety of deficient chromosomeswere recovered.—Nondisjunction of B chromosomes and eliminationof knobbed chromatin take place during the second microsporemitosis. The argument is advanced that the two phenomena resultfrom faulty replication of heterochromatic segments. The positionof the nonreplicating segment in the two kinds of chromosomesdetermines whether nondisjunction or breakage takes place.—Finally,it is suggested that all of the reported effects of the B chromosomecan be accounted for if the B is a parasitic entity having nogenetic function other than controlling the replication of itsproximal heterochromatic knob and increasing the ability ofB-containing sperm cells to compete successfully for fertilizationof the egg.

Submitted on December 14, 1971

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ON THE MECHANISM OF CHROMATIN LOSS INDUCED BY THE B CHROMOSOME OF MAIZE

M. M. Rhoades 1 and Ellen Dempsey 1

M. M. Rhoades ¹ and Ellen Dempsey ¹