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The cytogenetic systems of grasshoppers and locusts

I. Chortoicetes terminifera

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Abstract

The australian plague locust (2n=23 male, 24 female) is distinctive in possessing three pairs of two-armed, short autosomes (S9, S10 and S11). In two of these pairs (S9, S10) these arms are a constant feature but in the shortest (S9) pair most individuals are either heterozygous for them or else are homozygous telocentric. Coupled with this five of the heterozygous individuals give evidence of occasional short-arm detachment.—In all the S-pairs the shorter of the two arms is invariably heterochromatic in character and in the S9 and S11 shows a bi- or tri-partite sub-structure which suggests they may have originated by tandem duplication. — Three of the other autosomes (L2, M3 and M6) also have small heterochromatin(het)-blocks associated with them. At first meiotic prophase these frequently associate with the univalent X chromosome which itself displays an unconventional pattern of allocycly, its centric end appearing negatively heteropycnotic from leptotene through diplotene.—At metaphase I the het-blocks on the telocentric autosomes sometimes transform into swollen, negatively heteropycnotic, segments equivalent in appearance to that shown by the entire X at this stage. It is suggested that these puff-like structures represent an inter-chromosomal position effect conditional upon prior X/A het-association at first prophase.

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Authors and Affiliations

  1. School of Biological Sciences, University of East Anglia, England

    Godfrey M. Hewitt & Bernard John

  2. Department of Zoology, University of Southampton, England

    Godfrey M. Hewitt & Bernard John

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  1. Godfrey M. Hewitt
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  2. Bernard John
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Hewitt, G.M., John, B. The cytogenetic systems of grasshoppers and locusts. Chromosoma 34, 302–323 (1971). https://doi.org/10.1007/BF00286155

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  • DOI: https://doi.org/10.1007/BF00286155

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