Isolation and characterisation of seed-expressed acyl carrier protein genes from Brassica napus

Silva, Jacqueline de

January 1990

No description available.

572.8

Oil seed rape gene expression

Molecular genetic studies on Brassica napus L

Napis, Suhaimi

January 1991

The feasibility of using two different methods of assaying for DNA polymer phisms has been assessed. They were Restriction fragment length polymorphisms (RFLPs) as revealed by a range of characterised Brassica cDNA sequences and Random amplified polymorphic DNA (RAPD). These techniques have been shown to reveal DNA polymorphisms between varieties of Brassica napus L. Further more, the sequence and organisation of a Hind III family of highly repetitive DNA sequences were also studied on Brassica napus L. RFLPs associated with rape extensin, ext A, and Brassica oleraceae self- incompatibility genes were observed when DNA samples from 19 commercial varieties of B. napus were analysed using the cDNA probes pRR566 (coding for root-specific extensin) and pBOS2 (coding for S(_5) self-incompatibility allele in B. oleraceae). Both cDNA clones were able to reveal RFLP patterns with varying degrees of polymorphism depending on the restriction enzymes used in the digestion of genomic DNAs. Although both probes could generate complex RFLP band patterns, those revealed by pB0S2 were generally easier to analyse and more suitable for DNA fingerprinting while those revealed by pRR566 were less distinct as a result of extensive background hybridisations. The probe pRR566, with certain restriction enzymes generated simpler RFLP band patterns that were more suitable for segregation analyses. Segregation analysis of F(_1) individuals revealed additive RFLP band patterns of both parental varieties, while that of F(_2) individuals revealed RFLP band patterns of each parental varieties as well as the additive pattern. When analysed for possible association with varietal glucosinolate content, none of the RFLP band patterns showed such linkage. A cDNA library was constructed from pod material of a high glucosinolate variety in an attempt to obtain clones which could reveal RFLP patterns associated with glucosinolate content. Differential screening using total cDNAs from pod materials of high and low glucosinolate varieties failed to isolate any cDNA clones useful as RFLP markers. Another DNA polymorphism assay studied, RAPD, was able to detect inter- and intraspecific variation in Brassica sp. Analysis of six phylogenetically-related but distinct Brassica sp. revealed extensive variation in the RAPD band patternsof amplification products; with some amphidiploid species sharing conserved band patterns with their ancestral species. RAPD analysis on 17 varieties of rape revealed polymorphic as well as highly conserved RAPD band patterns depending on the primer used. One of the primers was able to amplify a polymorphic band which could be associated with low glucosinolate varieties i.e. present almost exclusively in low glucosinolate varieties. Species-specific as well as variety-specific band patterns were also observed during the RAPD analysis. Finally, sequence and organisation of a Hind III family of repetitive sequences was studied. The monomeric and polymeric forms (trimer and tetramer) of the repetitive sequences were successfully cloned into pUCl8. Sequence analysis of the two clones containing the polymeric forms revealed that the monomers were arranged in tandem array and that all internal Hind III recognition sites were lost due to point mutation(s) which occurred within the six basepair recognition site. A consensus monomeric sequence was deduced from sequence comparison of the 8 copies of the monomeric sequences present in the 3 clones and the deviation from the consensus sequence of each of the eight monomers was less than 3%. No two monomeric sequences were identical. It was estimated that the number of copies of the monomeric sequences in a haploid genome was approximately 0.3 million copies. Estimates of the proportional representation of each of the polymeric sequences based on the number of copies of the monomers in each polymer were also calculated.

580

Oil seed rape genetic studies

Patterns of distribution of insect pests (Ceutorhynchus spp., dasineura brassicae) on stems and pods of winter and spring oil seed rape crops and damage done by these pests / Stiebų ir ankštarų kenkėjų (Ceutorhynchus spp., dasineura brassicae) paplitimo, vystymosi dėsningumai žieminiuose ir vasariniuose rapsuose bei jų žalingumas

Vaitelytė, Birutė

24 November 2014

Research objective. The study was aimed to establish development and distribution patterns of cabbage stem weevil (Ceutorhynchus pallidactylus), cabbage seed weevil (C. obstrictus) and Brassica pod midge (Dasineura brassicae) in winter and spring oilseed rape crops, to estimate insect damage, to compare the efficacy of insecticides of different mode of action and to determine the optimal timing of insecticide application. Research tasks. 1. To determine species abundance and diversity of Ceutorhynchus spp. infesting oilseed rape crops. 2. To study cabbage stem weevil’s (C. pallidactylus) biology (migration activity of adult insects, embryonic and post-embryonic development) in winter and spring oilseed rape crops and to estimate insect injury. 3. To establish the patterns of distribution of adults of cabbage seed weevil (C. obstrictus) as well as those of embryonic and post-embryonic development in winter and spring oilseed rape crops and to estimate insect injury. 4. To explore the biology of Brassica pod midge (Dasineura brassicae), to identify distribution and development peculiarities and damage done to winter and spring oilseed rape. 5. To determine biological and economic efficacy and optimal application timing of insecticides of different mode of action against stem (C. pallidactylus) and pod (C. obstrictus and D. brassicae) insect pests in winter and spring oilseed rape. / Tyrimų tikslas. Nustatyti kopūstinių stiebinių paslėptastraublių (Ceutorhynchus pallidactylus), ankštarinių paslėptastraublių (C. obstrictus) ir ankštarinių gumbauodžių (Dasineura brassicae) plitimo ir vystymosi ypatumus žieminiuose ir vasariniuose rapsuose bei žalingumą, palyginti skirtingo poveikio insekticidų efektyvumą ir nustatyti optimalų insekticidų naudojimo laiką nuo šių kenkėjų. Tyrimų uždaviniai. 1. Nustatyti žieminių ir vasarinių rapsų pasėliuose plintančių paslėptastraublių (Ceutorhynchus spp.) rūšių gausumą ir įvairovę. 2. Ištirti kopūstinių stiebinių paslėptastraublių (C. pallidactylus) biologiją (suaugėlių migracijos aktyvumą, embrioninį ir poembrioninį vystymąsi) žieminiuose ir vasariniuose rapsuose, įvertinti šių kenkėjų žalingumą. 3. Nustatyti ankštarinių paslėptastraublių (C. obstrictus) suaugėlių paplitimo, embrioninio ir poembrioninio vystymosi ypatumus žieminiuose ir vasariniuose rapsuose bei jų žalingumą. 4. Ištirti ankštarinių gumbauodžių (Dasineura brassicae) biologiją, nustatyti jų žalingumą bei vystymosi ypatumus žieminiuose ir vasariniuose rapsuose. 5. Nustatyti skirtingo poveikio insekticidų biologinį ir ūkinį efektyvumą ir optimalų jų naudojimo laiką nuo stiebų (C. pallidactylus) ir ankštarų kenkėjų (C. obstrictus ir D. brassicae) žieminiuose ir vasariniuose rapsuose.

Agronomy

Oil seed rape

Pest

Ceutorhynchus

Rapsai

Kenkėjai

Ceutorhynchus