EXPANSION OF THE BASIC KNOWLEDGE ON THE INHERITANCE OF CHARACTERS THAT ALLOW THE DEVELOPMENT OF NEW MAIZE BREEDING TECHNIQUES-Reference-Cited by-同舟云学术

EXPANSION OF THE BASIC KNOWLEDGE ON THE INHERITANCE OF CHARACTERS THAT ALLOW THE DEVELOPMENT OF NEW MAIZE BREEDING TECHNIQUES

Published:2023-07 Issue:1 Volume:34 Page:11-29
ISSN:1852-6233
Container-title:Journal of Basic and Applied Genetics
language:
Short-container-title:BAG

Author:

Salerno J.C.¹,Kandús M.V.¹,Prada A.²,Almorza D.³

Affiliation:

1. INTA, Argentina | Universidad de Morón (UM), Argentina | Universidad del Salvador (USAL), Argentina

2. Facultad de Medicina, Universidad de Cádiz, España

3. Facultad de Ciencias del Trabajo, Universidad de Cádiz, España

Abstract

In order to increase the efficiency of maize hybrid seed production it is necessary to achieve a high grain yield to reduce production costs. This goal requires an expansion of the basic knowledge of the inheritance of characters in order to develop new breeding techniques to improve experimental materials with hard endosperm (flint). The balanced lethal system allows to study the relative contribution of different chromosome segments to hybrid vigour due to the heterozygosity of certain chromosome segments while the rest of the genome becomes homocygotic through continuous selfing. In this way, these segments can be transferred to inbred lines in order to increase grain yield or tassel size (to increase pollen production). The goal of this study was to transfer a heterotic segment by using a balanced lethal system regulated line (BLS14), through crosses and backcrosses, to S5 flint lines derived from two commercial hybrids, ACA 2000 and Cóndor with closed pedigree, with the objective of increase grain yield or tassel size for pollen production. The analysis of variance (ANOVA) and principal components analysis (PCA) showed a significant improvement in grain yield and tassel size in the S5 flint lines of both commercial hybrids, carrying the heterotic segment of the BLS14 line. Key words: maize, heterotic segments, grain yield, inbred lines

Publisher

Sociedad Argentina de Genetica

Subject

Genetics (clinical),Genetics,Applied Microbiology and Biotechnology,Biotechnology

Reference78 articles.

1. Ajmone-Marsan P., Monfredini G., Ludwig W.F., Melchinger A.E., Franceschini P., Pagnotto G., Motto M. (1995) In an elite cross of maize a major quantitative trait locus controls one-fourth of the genetic variation for grain yield. Theor. Appl. Genet. 90(3): 415-424.

2. Allard R.W, Bradshaw A.D. (1964) Implications of genotype-environment interactions in applied plant breeding. Crop Sci. 4: 503-508.

3. Apirion D., Zohary D. (1961) Chlorophyll lethal in natural populations of the orchard grass (Dactylis glomerata L.). Genetics 46: 393-399.

4. Band H.T. (1963) Genetic structure of populations. II. Viabilities and variances of heterozygotes in constant and fluctuating environments. Evolution 17: 307-319.

5. Band H.T., Ives P.T. (1961) Correlated changes in environment and lethal frequency in a natural population of Drosophila melanogaster. Proc. Nat. Acad. Sci. U.S.A. 47: 180-185.