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31.
Lipoxygenases are nonheme-iron-containing dioxygenases that catalyze the hydroperoxidation of unsatrated fatty acids containing a cis cis- -pentadiene structure producing hydroperoxy acids with conjugated dienes.…… 《分子植物育种》2007,5(2):188-189
Lipoxygenases are nonheme-iron-containing dioxygenases that catalyze the hydroperoxidation of unsatrated fatty acids containing a cis, cis-1,4-pentadiene structure producing hydroperoxy acids with conjugated dienes. LOX activity has been found in a wide range of plants. Typical substrates for LOX in plants are linoleic acid and linilenic acid fatty acids. The function of various LOXs in plants is unknown, but their participation in all stages of plant growth and development has been suggested (Hildebrand, 1989; Siedow, 1991). Some of the physiological processes in whicn lipoxygenses have been implicated include wounding (Saravitz and Siedow, 1996), pathogen attack (Melan et al., 1993), seed germination (Kato et al., 1992), fruit ripening (Ferrie et al., 1994), plant senescence (Paliyath and Droillard, 1992). The study on the role of lipoxygenase in ripening and senescence fruit focused on tomato and strawberry. Cloning LOX gene of cucumber fruit will make us further understand the molecularaction mode of this enzyme during fxuit ripening and senescence. In this paper we isolated the partial nucleotide sequences of cucumber fiuit lipoxygenase gene and discuss the characterization of it. 相似文献
32.
The similarity in gene order between closely related taxa suggests that genomic information from model systems should facilitate gene isolation characterization in target crops. …… 《分子植物育种》2007,5(2):152-153
The similarity in gene order between closely related taxa suggests that genomic information from model systems should facilitate gene isolation and characterization in target crops. If this is the case, a great deal of effort and investment can be saved by focusing attention on a few model systems that have appropriate applicability. Pea (Pisura sativum) provides a good test case: its genome is large and the insertion sites for repetitive elements, which comprise the bulk of its genome, are highly polymorphic (Jing et al., 2005; Vershinin et al., 2003), so we expect a great deal of structural polymorphism between the genomes of Pisum lines. Yet the genetic map of Pisum is essentially coUinear with Medicago (Choi et al., 2004; Kalo et al., 2004). 相似文献
33.
The growing set of fully-sequenced angiosperm genomes highlight the role of polyploidy in angiosperm evolution suggest that even the high level of importance we had already attributed to this mechanism was inadequate.…… 《分子植物育种》2007,5(2):151
The growing set of fully-sequenced angiosperm genomes highlight the role of polyploidy in angiosperm evolution, and suggest that even the high level of importance we had already attributed to this mechanism was inadequate. 相似文献
34.
Among the most important Mediterranean annual crops durum wheat is widely grown in drought-prone areas. Therefore improving water-use efficiency 《分子植物育种》2007,5(2):223-223
Among the most important Mediterranean annual crops, durum wheat is widely grown in drought-prone areas. Therefore, improving water-use efficiency (WUE) of durum wheat represents a major breeding goal. IDu-WUE (Improving Durum wheat for Water Use Efficiency and yield stability through physiological and molecular approaches) is a collaborative project among public and private research centres in Italy, Spain and WANA (West Asia and North Africa) countries (Morocco, Tunisia, Syria and Lebanon) funded by the European Union aimed at investigating the genetic variation for WUE and yield stability in durum wheat grown in Mediterranean droughtprone areas. During the first year of the project, a number of morpho-physiological traits (e.g. early vigour, flowering time, leaf rolling, number of fertile tillers, etc.), WUE, WUE-related traits (e.g. carbon isotope discrimination, canopy temperature, chlorophyll fluorescence, etc.), yield and its components have been investigated in a RIL population (249 lines) and a collection of ca. 190 durum wheat accessions characterized by a high level of linkage disequilibrium (Maccaferri et al., 2005), 相似文献
35.
Improving Drought Tolerance of Rice by Designed QTL Pyramiding 总被引:4,自引:0,他引:4
Drought is the most important factor limiting rice yields in the rainfed areas of Asia. To overcome the problem we developed a new strategy ''''designed QTL pyramiding'''' to more efficiently develop drought tolerant 《分子植物育种》2007,5(2):205-206
Drought is the most important factor limiting rice yields in the rainfed areas of Asia. To overcome the problem, we developed a new strategy 'designed QTL pyramiding' to more efficiently develop drought tolerant (DT) rice cultivars. In the first phase of this strategy, we developed large numbers of introgression lines (ILs) in elite backgrounds using backcross (BC) breeding, each of which carries multiple genomic segments for improved DT from a known donor. Then, we genotyped all ILs with SSR markers to track the genomewide pattern of introgression in the DT ILs of 16 BC populations derived from crosses between 2 recipients (IR64 and Teqing) and four different donors. X^2 tests and linkage disequilibrium analyses of introgression in the DT ILs revealed significant frequency shifts at many loci across the genome and non-random associations at the multilocus level as a result of selection for DT in the ILs, which led us to the discovery of putative genetic networks underlying DT in the ILs. The networks each containing all DT loci detected in ILs from a BC population showed some interesting features. 相似文献
36.
One of the most important breakthroughs in the history of genetics was the discovery that mutations can be artificially induced in organisms 《分子植物育种》2007,5(2):193-195
One of the most important breakthroughs in the history of genetics )was the discovery that mutations can be artificially induced in organisms (van Harten, 1998). Artificially induced mutations, by physical and chemical mutagens, have greatly advanced the understanding of genetics of higher organisms. Starting in the late 1960's, the International Atomic Energy Agency (IAEA) and the Food and Agriculture Organization (FAO) of the United Nations sponsored extensive research on mutation induction and their application to breeding of food and indnstrial crops that resulted in the introduction of new varieties of rice, wheat, barley, apples, citrus, sugar cane, banana, and others (more than 2 500 officially released new varieties are to be found in the FAO/IAEA Mutant Varieties Database) (hitp://www-mvd.iaea.org/MVD/default.htm). However, the usefulness of mutation techniques has been underappreciated in research communities, particularly during the last decade, when more and more researchers and breeders were rushing into molecular marker techniques and transgenic plants. In this paper, after a brief review of the past accomplishments of mutation induction and its application, we discuss the uniqueness of induced mutations in gene discovery and how to integrate induced mutants into functional genomics programs; 相似文献
37.
38.
The modern crop scientist has a large amount of available nucleotide sequence information to identify genes of potential agronomic importance.…… 《分子植物育种》2007,5(2):238-239
The modem crop scientist has a large amount of available nucleotide sequence information to identify genes of potential agronomic importance. Using reverse genetic approaches, specific genes can be disrupted, and hypotheses regarding gene function directly tested in vivo. Although a number of reverse genetic methods have been introduced, many are limited in application because they are organism-specific, expensive, transgenic, or only transiently disrupt gene function. However, traditional mutagenesis using chemical mutagens has been widely used as a forward genetics strategy to create many new crop plant varieties at relatively low cost. Mutagens such as ethyl methanesulphonate (EMS) cause stable point mutations and thus produce an allelic series of truncation and missense changes that can provide a range of phenotypes (Greene et al., 2003). TILLING (targeting induced local lesions IN genomes) is a high-throughput reverse genetic strategy that combines traditional mutagenesis and SNP discovery methods (Colbert et al., 2001; McCallum et al., 2000). To identify mutations, target regions of-l.5 kb are amplified with fluorescently labeled gene specific primers. Heteroduplexes are then formed between wild-type and mutant strands, mismatches are cleaved by incubation with a single-strand specific nuclease, 相似文献
39.
India being the primary center of origin for rice had a very large treasure of local land races most of which are out of cultivation today. The exact genetic potential their differences from commercial varieties the magnitude of heterogeneity still present in them are not well catalogued. Hence the need to characterize the available land races has become imminent in the modem day concept of crop improvement 《分子植物育种》2007,5(2):257-258
India being the primary center of origin for rice had a very large treasure of local land races, most of which are out of cultivation today. The exact genetic potential and their differences from commercial varieties and the magnitude of heterogeneity still present in them are not well catalogued. Hence the need to characterize the available land races has become imminent in the modem day concept of crop improvement (Rezai and Frey, 1990). The present study addresses the utility of SSR markers in divulging the genetic relationships at molecular level among the major component factions office gennplasm viz., local cultivars, land races and wild species collected from a wide range of agro-geographical regions of Indian subcontinent. 相似文献
40.
Groundnut is a member of genus Arachis the crop is divided into two subspecies six botanical varieties based on morphological characteristics 《分子植物育种》2007,5(2):255-256
Groundnut is a member of genus Arachis and the crop is divided into two subspecies and six botanical varieties based on morphological characteristics (Krapovickas and Gregory, 1994). The International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) holds more than 14 000 groundnut accessions from which a core collection of 1 704 have been developed (Upadhyaya et al., 2003). Holdbrook et al. (1993) developed a groundnut core collection of 831 accessions from a total of 7 432 US groundnut accessions based on morphological characteristics. The large number and variability of accessions in GenBanks create problems in knowing which germplasm to select for breeding purpose. Only a few established cultivars and elite breeding lines have been utilised in breeding programmes. A core collection is a fraction of accessions from the entire collection which represent most of the available genetic diversity of the species. A core collection can extensively be evaluated and information derived from them can be applied to the whole collection. Identification of DNA markers associated with the botanical varieties of groundnut would be useful in genotyping, germplasm management and evolutionary studies. 相似文献