RAPD AND AFLP TAGGING OF TWO GENES, BETA (B) AND BETA MODIFIER (MO-B0, WHICH INFLUENCE B-CAROTENE ACCUMULATION IN FRUIT OF TOMATO (LYCOPERSICON ESCULENTUM MILL.)

Authors: Zhang, Yiping; Stommel, John

Submitted to: Journal of Theoretical and Applied Genetics
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 5/3/1999
Publication Date: N/A
Citation: N/A

Interpretive Summary: A number of mutants have been described in tomato which
influence fruit pigmentation. The Beta (B) mutant increases
levels of the orange pigment beta-carotene at the expense of
the red pigment lycopene. Two approaches were used to
identify molecular markers linked to B and Mo-B. These
included: 1) analysis of near isogenic lines (NILs) unique for
B and 2) bulked segregant analysis (BSA) of a population
comprised of individuals segregating for B. For BSA, DNA from
high beta-carotene individuals and DNA from low beta-carotene
individuals was combined to create two bulked DNA samples.
Red- and orange-fruited NILs and bulks of red- and orange
fruited individuals from a segregating population were
evaluated using randomly amplified polymorphic DNA (RAPD) and
amplified fragment length polymorphism (AFLP) analyses. Two
RAPD markers linked to B were identified using BSA and one
AFLP marker linked to Mo-B was identified using the NILs. The
results are beneficial to scientists conducting basic and
applied research with tomato, as well as other crop
commodities, wherein pigment composition influences product
quality.

Technical Abstract: The Beta (B) locus in tomato increases fruit B-carotene
content at the expense of lycopene, resulting in orange
pigmented fruit. Expression of B is influenced by the beta
modifier (Mo-B) gene which segregates independently of B.
RAPD and AFLP analyses were performed using near isogenic
lines (NILs) unique for B, and bulked segregant analysis (BSA)
of a L. esculentum x L. cheesmanii derived F2 population
segregating for B. Using 1018 random primers and 64 primer
pairs, polymorphic RAPD and AFLP products were identified
which distinguished the NILs and the two bulked DNA samples
constructed for BSA. A single 100 bp AFLP amplification
product (E-ACA/M-CTG-100) which distinguished the NILs
cosegregated with Mo-B and was demonstrated to be tightly
linked to the locus. E-ACA/M-CTG 100 exhibited a
recombination frequency of 1.7% in the F-2 progeny derived
from an initial cross between the isolines. Two RAPD products
(OPAR18-1100, UBC792-830) of 1100 bp and 830 bp were
polymorphic between orange- and red-fruited bulks constructed
from F-2 individuals in the L. esculentum and L. cheesmanii
mating series. OPAR18-1100 and UBC792-830 displayed
recombination frequencies of 4.2% and 7.6% in F-2 progeny.