Identification of aneuploids in Nicotiana tabacum by isozyme banding patterns

1 June 1982

journal article
research article
Published by Springer Nature in Biochemical Genetics

Vol. 20 (5-6) , 555-568
https://doi.org/10.1007/bf00484704

Abstract

A biochemical system was devised to identify aneuploids of Nicotiana tabacum. Leaf tissue from 6 nullihaploids, 4 nullisomics, and 10 monosomics was analyzed electrophoretically on slab acrylamide gels. The staining systems used were for peroxidase, esterase, superoxide dismutase, malate dehydrogenase, and glutamate oxaloacetate transaminase. Nullihaploids and nullisomics could be distinguished from each other and from haploid or disomic types by their unique isozyme banding patterns. The banding patterns of the monosomics closely resembled those of the disomic. Morphologically similar aneuploids from different populations had similar isozyme banding patterns.

This publication has 21 references indexed in Scilit:

THE USE OF SEED ISOENZYMES AS AN AID TO THE BREEDING OF FIELD BEANS (VICIA FABA L.)
New Phytologist, 1979
Design and construction of a simple and inexpensive slab gel electrophoresis apparatus
Analytical Biochemistry, 1978
Identification of monosomic and nullisomic oats using leaf peroxidase isozymes.
The Japanese Journal of Genetics, 1978
Chromosomal location and evolution of isozyme structural genes in hexaploid wheat
Heredity, 1977
BARLEY CULTIVAR IDENTIFICATION BY USE OF ISOZYME ELECTROPHORETIC PATTERNS
Canadian Journal of Plant Science, 1976
On the Localization and Tissue Difference of Peroxidases in Nicotiana tabacum and Its Progenitor Species
Botanical Gazette, 1970
Starch gel electrophoresis of enzymes?A compilation of recipes
Biochemical Genetics, 1970
Genetic control of multiple molecular forms of enzymes in plants: A review
Biochemical Genetics, 1969
Potato variety identification by use of electrophoretic patterns of tuber proteins and enzymes
American Journal of Potato Research, 1968
Electrophoretic Differences in Seed Proteins among Varieties of Soybean, Glycine max (L.) Merrill¹
Crop Science, 1967