Kyung Hee Roh

Ectopic overexpression of castor bean LEAFY COTYLEDON2 (LEC2) in Arabidopsis triggers the expression of genes that encode regulators of seed maturation and oil body proteins in vegetative tissues

The LEAFY COTYLEDON2 (LEC2) gene plays critically important regulatory roles during both early and late embryonic development. Here, we report the identification of the LEC2 gene from the castor bean plant (Ricinus communis), and characterize the effects of its overexpression on gene regulation and lipid metabolism in transgenic Arabidopsis plants. LEC2 exists as a single‐copy gene in castor bean, is expressed predominantly in embryos, and encodes a protein with a conserved B3 domain, but different N‐ and C‐terminal domains to those found in LEC2 from Arabidopsis. Ectopic overexpression of LEC2 from castor bean under the control of the cauliflower mosaic virus (CaMV) 35S promoter in Arabidopsis plants induces the accumulation of transcripts that encodes five major transcription factors (the LEAFY COTYLEDON1 (LEC1), LEAFY COTYLEDON1‐LIKE (L1L), FUSCA3 (FUS3), and ABSCISIC ACID INSENSITIVE 3 (ABI3) transcripts for seed maturation, and WRINKELED1 (WRI1) transcripts for fatty acid biosynthesis), as well as OLEOSIN transcripts for the formation of oil bodies in vegetative tissues. Transgenic Arabidopsis plants that express the LEC2 gene from castor bean show a range of dose‐dependent morphological phenotypes and effects on the expression of LEC2‐regulated genes during seedling establishment and vegetative growth. Expression of castor bean LEC2 in Arabidopsis increased the expression of fatty acid elongase 1 (FAE1) and induced the accumulation of triacylglycerols, especially those containing the seed‐specific fatty acid, eicosenoic acid (20:1Δ11), in vegetative tissues.

Accumulation of sweet protein monellin is regulated by thepsbA 5′UTR in tobacco chloroplasts

Post-transcriptional RNA processing and translational regulations are important steps for gene expression. To analyze the 5′UTRof psbA that enhances translation of the sweet protein monellin in chloroplasts, we cloned the monellin gene, with and without thepsbA 5′UTR, into the chloroplast expression vector for chloroplast transformation. Transgenic plants were identified as being transplastomic via PCR and Southern blot analyses. We also observed non-specific recombination during tobacco chloroplast transformation. Analyses of the transcription patterns showed that intercistronic cleavage of the psbA mRNA 5′ untranslated (UTR) region was functional at the mature stage, with the monocistronic mRNA ofmonellin increasing while its dicistronic mRNA decreased. Moreover, monellin accumulation accounted for 2.3% of the total soluble protein at the mature stage, but only 1.3% at the young stage in transplastomic lines that contained the 5′UTRof psbA. These results suggest that activation of the endonucleolytic cleavage of thepsbA 5′UTR element depends on chloroplast developmental conditions, and that it enhances the accumulation of sweet protein monellin in those chloroplasts.

Molecular cloning and functional analysis of two FAD2 genes from American grape (Vitis labrusca L.).

The synthesis of polyunsaturated fatty acids (PUFAs), the most abundant fatty acids in plants, begins with a reaction catalyzed by fatty acid desaturase 2 (FAD2; EC 1.3.1.35), also called microsomal oleate Δ12-desaturase. Since the FAD2 gene was first identified in Arabidopsis thaliana, FAD2 research has gained wide interest as the essential enzyme for synthesizing PUFA. Grapes are one of the most frequently cultivated fruits in the world, with most commercial growers cultivating Vitis vinifera and V. labrusca. Grapeseed oil contains a high proportion, 60-70% of linoleic acid (18:2). We cloned two putative FAD2 genes from V. labrusca cv. Campbell Early based on V. vinifera genome sequences. Deduced amino acid sequences of two putative genes showed that VlFAD2s show high similarity to Arabidopsis FAD2 and commonly contain six transmembrane domain, three histidine boxes and endoplasmic reticulum (ER) retrieval motif representing the characteristics of fatty acid desaturase. Phylogenetic analyses of various plant FAD2s showed that VlFAD2-1 and VlFAD2-2 are separately grouped with constitutive and seed-type FAD2s, respectively. Southern blot showed that one or two bands are found in each lane. Because Campbell Early is a hybrid cultivar, FAD2-1 and FAD2-2 genes may exist as one copy in V. labrusca. Expression analysis in different tissues indicated that VlFAD2-1 is a constitutive gene but VlFAD2-2 is a seed-type gene. Complementation experiments of fad2-1 mutant Arabidopsis with VlFAD2-1 or VlFAD2-2 demonstrated that VlFAD2-1 and VlFAD2-2 can restore low PUFA proportion of fad2 to normal PUFA proportion.

Functional analysis and tissue-differential expression of four FAD2 genes in amphidiploid Brassica napus derived from Brassica rapa and Brassica oleracea.

Fatty acid desaturase 2 (FAD2), which resides in the endoplasmic reticulum (ER), plays a crucial role in producing linoleic acid (18:2) through catalyzing the desaturation of oleic acid (18:1) by double bond formation at the delta 12 position. FAD2 catalyzes the first step needed for the production of polyunsaturated fatty acids found in the glycerolipids of cell membranes and the triacylglycerols in seeds. In this study, four FAD2 genes from amphidiploid Brassica napus genome were isolated by PCR amplification, with their enzymatic functions predicted by sequence analysis of the cDNAs. Fatty acid analysis of budding yeast transformed with each of the FAD2 genes showed that whereas BnFAD2-1, BnFAD2-2, and BnFAD2-4 are functional enzymes, and BnFAD2-3 is nonfunctional. The four FAD2 genes of B. napus originated from synthetic hybridization of its diploid progenitors Brassica rapa and Brassica oleracea, each of which has two FAD2 genes identical to those of B. napus. The BnFAD2-3 gene of B. napus, a nonfunctional pseudogene mutated by multiple nucleotide deletions and insertions, was inherited from B. rapa. All BnFAD2 isozymes except BnFAD2-3 localized to the ER. Nonfunctional BnFAD2-3 localized to the nucleus and chloroplasts. Four BnFAD2 genes can be classified on the basis of their expression patterns.

Isolation and functional characterization of polyunsaturated fatty acid elongase (AsELOVL5) gene from black seabream (Acanthopagrus schlegelii)

To identify the genes encoding fatty acid elongases for the biosynthesis of polyunsaturated fatty acids (PUFAs), we isolated a cDNA via degenerate PCR and RACE-PCR from Acanthopagrus schlegelii with a high similarity to the ELOVL5-like elongases of mammals and fishes. This gene is termed AsELOVL5 and encodes a 294 amino acid protein. When AsELOVL5 was expressed in Saccharomyces cerevisiae, it conferred an ability to elongate γ-linolenic acid (18:3 n−6) to di-homo-γ-linolenic acid (20:3 n−6). In addition, the transformed cells converted arachidonic acid (20:4 n−6) and eicosapentaenpic acid (20:5 n−3) to docosatetraenoic acid (22:4 n−6) and docosapentaenoic acid (22:5 n−3), respectively. These results indicate that the AsELOVL5 gene encodes a long-chain fatty acid elongase capable of elongating C18Δ6/C20Δ5 but not C22 PUFA substrates.

Isolation and functional characterization of a delta 6-desaturase gene from the pike eel (Muraenesox cinereus)

Stearidonic acid (STA; 18:4n-3) and γ-linolenic acid (GLA; 18:3n-6) are significant intermediates in the biosynthetic pathway for the very-long-chain polyunsaturated fatty acids of eicosapentaenoic acid (EPA; 20:5n-3) and arachidonic acid (ARA; 20:4n-6), respectively. To develop a sustainable system for the production of dietary polyunsaturated fatty acids, we focused on the action of the enzyme delta 6-desaturase (D6DES) on the essential acids, linoleic acid (LA; 18:2n-6) and α-linolenic acid (ALA; 18:3n-3). A 1,335-bp full-length cDNA encoding D6DES (McD6DES) was cloned from Muraenesox cinereus using degenerate PCR and RACE-PCR methods. To investigate the enzymatic activity of McD6DES in the production of n-6 and n-3 fatty acids, a recombinant plasmid expressing McD6DES (pYES-McD6DES) was transformed into and expressed in Saccharomyces cerevisiae. The exogenously expressed McD6DES produced GLA and STA at conversion rates of 14.2% and 45.9%, respectively, from the exogenous LA and ALA substrates. These results indicate that McD6DES is essentially a delta 6-desaturase involved in very-long-chain polyunsaturated fatty acid synthesis.

The influence of silver thiosulfate and thidiazuron on shoot regeneration from cotyledon explants of Brassica napus

The influences of ethylene inhibitors (AgNO3 and silver thiosulfate) and cytokinins (BAP and TDZ) on shoot regeneration from cotyledon and hypocotyl explants of B. napus cv. Youngsan were investigated. The presence of 50 µM Silver thiosulfate (STS) in shoot regeneration medium formed shoots at 60-68% after 3-4 weeks of culture, which was enhanced by 2-fold compared to that of Silver nitrate (AgNO3). Moreover, cotyledon explants were more regen- erative than hypocotyls; shoots from cotyledon explants began to occur 4-5 days earlier than that of hypocotyl explants. TDZ at a concentration of 8-10 µM was effective for shoot regeneration, compared with BAP. Consequently, the optimal shoot regeneration response was observed in medium supplemented with 50 µM STS + 8 µM TDZ. In transmission electron microscopy (TEM) analysis, higher density of silver nanoparticles was shown to be accumulated widely inside the cell wall and plasmodesmata of regen- erating leaf cultured in medium supplemented with AgNO3. By contrast, in the cell cultured in medium with STS, fine-grained deposits were partly observed in the sur- roundings of the cell wall.

Development of herbicide-tolerant Korean rapeseed (Brassica napus L.) cultivars

An interest in the production of seed-oil based fuel and raw materials, which comes from renewable plant sources, has been intrigued by the phenomenon of global warming and shortage of fossil fuels. Rapeseed (Brassica napus) is the most important oilseed crop, which produces seeds with 40% oil. It is desirable to develop genetically modified rapeseed producing oils, which can be easily converted to biodiesel. As an initial step for development of genetically modified rapeseed for the production of biofuels or bio-based materials, Korean rapeseed cultivars, Naehan, Youngsan, Tammi and Halla, were analyzed. Four Korean rapeseed cultivars produce 32 to 40% oil of seed dry weight, which is rich in oleic acid (more than 60 mole%). The cotyledonary petioles of rapeseed cultivar, Halla, were transformed using Agro- bacterium tumefaciens strain GV3101, carrying the uidA gene encoding β-glucuronidase (GUS) as a reporter gene and the phosphinothricin acetyltransferase (PAT) gene as a selectable marker. The stable integration of PAT gene in the genome of transgenic rapeseeds was confirmed by PCR analysis. Expression of uidA gene in various rapeseed organs was determined by fluorometric assay and histo- chemical staining. Transformation efficiency of a Korean rapeseed Halla cultivar was 10.4%. Genetic inheritance of transgenes was confirmed in T2 generation.

Identification and functional characterization of polyunsaturated fatty acid elongase (McELOVL5) gene from pike eel (Muraenesox cinereus)

The cDNA coding for a polyunsaturated fatty acid elongase (McELOVL5) was isolated from the brain of the pike eel (Muraenesox cinereus) being based on available sequences in 23 types of fish. Four sequence variants were identified with different amino acid substitutions as compared with two clones of McELOVL5 gene (McELOVL5 11.7 and McELOVL5 12.4). When the two variants of McELOVL5 were expressed in Saccharomyces cerevisiae, the two recombinant yeasts elongated γ-linolenic acid (GLA, 18:3n-6) to di-homo-γ-linolenic acid (DGLA, 20:3n-6) but differed in the rate of GLA conversion to DGLA. Cells transformed with McELOVL5 12.4 also converted arachidonic acid (20:4n-6) and eicosapentaenoic acid (20:5n-3) to docosatetraenoic acid (22:4n-6) and docosapentaenoic acid (22:5n-3), respectively. However McELOVL5 11.7 lost its function for the elongation of C20 fatty acids. The four sequence variants have changed substrate specificities. Three-dimensional models of the McELOVL5 proteins are suggested.

Effect of cultivar and ascorbic acid on in vitro shoot regeneration and development of bombardment-mediated plastid transformation of tomato (Lycopersicon esculentum)

Abstract Eighteen cultivars of tomato were tested for their regeneration response. Lycopersicon esculentum cv. 2001- 58 showed a very high frequency of regeneration (93%). We evaluated the effect of two compounds with known antio-xidant activity (ascorbic acid and cystein). The use of ascorbic acid (200 - 300 μM/L) has a positive effect on s hoot regeneration. To develope a system for plastid transfor-mation in tomato via homologous recombination, we con-structed the tomato plastid expression vector (pKRT22-AG) harboring 2.2 kb flanking sequences cloned from intact plastid genome and gfp gene. To investigate the factors affecting the delivery system of the pKRT22-AG into chloroplast using bombardment, We assessed the optimal DNA concentration, gold particle volume and target distance. Expression of the GFP protein was observed within chloroplast on protoplast of cotyledon explant by confocal laser scanning microscopy, which indicates that the protocol developed in this study be useful for the production of plastid transgenic plants in tomato.