Cloning of gonadal aromatase gene <Emphasis Type="Italic">Cyp19a</Emphasis> in an endemic fish (<Emphasis Type="Italic">Schizothorax kozlovi</Emphasis>) of the Upper Yangtze River,and temperature effects on its expression

In order to elucidate the role of Cyp19a in sex differentiation of Schizothorax kozlovi, the full length cDNA of Cyp19a was cloned from the mature ovary of S. kozlovi by using rapid amplification of cDNA ends method, and then its relative mRNA expression levels among tissues and temperature groups were determined by using quantitative real-time PCR. The complete Cyp19a cDNA of 1795 bp of S. kozlovi was obtained, which encoded 517 amino acids and belonged to gonadal aromatase. Its deduced amino acid sequence had the above 70 % identity compared with gonadal aromatase genes of teleost fishes, but only 62–67 % when compared with brain aromatase genes of fishes. It was expressed only in heart and gonad, but no expression in other tissues, presenting relatively high tissue specificity. It also exhibited sex-specific expression pattern in gonads, but no sex differences in heart. Comparing with the Cyp19a expression levels at 12 days post hatching (dph), significant temperature effects were revealed in low temperature group (10 °C) at 18 dph, and in high temperature group (26 °C) at 40 dph. It suggested that gonadal aromatase Cyp19a gene may play important roles on the feminization or masculinization of S. kozlovi affected by temperature during the early developmental stage.     

Molecular characterisation of four echinostomes (Digenea: Echinostomatidae) from birds in New Zealand,with descriptions of <Emphasis Type="Italic">Echinostoma novaezealandense</Emphasis> n. sp. and <Emphasis Type="Italic">Echinoparyphium poulini</Emphasis> n. sp.

Morphological and molecular characterisation of echinostome specimens (Digenea: Echinostomatidae) recovered in one Anas platyrhynchos L. and one Cygnus atratus (Latham) (Anseriformes: Anatidae) from New Zealand revealed the presence of two known species, Echinostoma miyagawai Ishii, 1932 and Echinoparyphium ellisi (Johnston & Simpson, 1944) and two species new to science. Comparative morphological and phylogenetic analyses supported the distinct species status of Echinostoma novaezealandense n. sp. ex Branta canadensis (L.), A. platyrhynchos and C. atratus, and Echinoparyphium poulini n. sp. ex C. atratus. Echinostoma novaezealandense n. sp., a species of the “revolutum” species complex characterised by the possession of a head collar armed with 37 spines, keyed down to E. revolutum but was distinguished from the latter in having a much narrower body with almost parallel margins, longer oesophagus, wider cirrus-sac, larger seminal vesicle, much smaller ventral sucker, ovary, Mehlis’ gland and testes, more anteriorly located ovary and testes, and distinctly smaller eggs (81–87 × 42–53 vs 106–136 × 55–70 µm). This new species appears similar to Echinostoma acuticauda Nicoll, 1914 described in Australia but differs in having a longer forebody, more posteriorly located ovary and testes, and much smaller eggs (81–87 × 42–53 vs 112–126 × 63–75 µm). Echinoparyphium poulini n. sp. is differentiated from the four species of Echinoparyphium possessing 37 collar spines considered valid as follows: from E. chinensis Ku, Li & Chu, 1964 in having a much smaller body, four (vs five) angle spines and simple seminal vesicle (vs bipartite); from E. schulzi Matevosyan, 1951 in having a less robust body at a comparable body length, much smaller ventral sucker, ovary and testes, and longer but narrower eggs (87–109 × 50–59 vs 70–85 × 60–84 µm); and from the two smaller forms, E. serratum Howell, 1968 and E. aconiatum Dietz, 1909, in a number of additional metrical features correlated with body size and especially in the possession of much larger collar spines. Partial fragments of the mitochondrial nad1 and 28S rRNA genes were amplified for representative isolates of the four species and analysed together with sequences for Echinostoma spp. and Echinoparyphium spp. available on GenBank. Phylogenetic analyses based on the mitochondrial nad1 gene revealed congruence between the molecular data and species identification/delineation based on morphology; this was corroborated by the 28S rDNA sequence data.     

Natural genetic variation in <Emphasis Type="Italic">Brassica</Emphasis> homologs of <Emphasis Type="Italic">FLOWERING LOCUS T</Emphasis> and characterization of its expression domains

FLOWERING LOCUS T (FT), a major effect gene, regulates flowering time in Arabidopsis. We analyzed evolutionary changes distinguishing two FT homeologous loci in B. rapa, described genetic variation in homologs isolated and reported expression pattern of FT in B. juncea. Synteny analysis confirmed presence of two FT genomic copies in B. rapa ssp. pekinensis and resolved pre-existing anomalies regarding copy number in “AA” genome. Synteny analysis of B. rapa homeologous regions CR1 (129 kb) and CR2 (232 kb) revealed differential gene fractionation and wide-spread re-arrangements. Seven genomic DNA (gDNA) variants (2.1–2.2 kb) and 10 complementary DNA (cDNA) variants (528 bp) were isolated from 6 Brassica species. The gDNA variants shared 72–99 % similarity within Brassica and 58–60 % between Arabidopsis and Brassica. FT cDNA variants shared 92–100 % similarity within Brassica and 87 % between Arabidopsis and Brassica. Phylogenetic analysis of FT gDNA, cDNA and protein sequences revealed two major clades, differentiating homologs derived from species containing shared “BB” and “CC” genomes. Phylogram based on Brassica FT gDNA differentiated homeologs derived from AA-LF (Least fractioned) and AA-MF1 (Moderately fractioned) sub-genomes. Analysis of FT expression pattern in B. juncea revealed increasing levels correlating with attainment of physiological maturity; highest levels were detected in older leaves implying conservation in spatio-temporal expression pattern vis-à-vis Arabidopsis. In conclusion, our study reveals that polyploidy in Brassicas resulted in expansion of FT gene copies with homologs charting independent evolutionary course through accumulation of mutations. However, expression domains of FT remained conserved across Brassicaceae to preserve the critical function of FT in controlling flowering time.     

Cloning,characterization and function analysis of <Emphasis Type="Italic">DAX1</Emphasis> in Chinese loach (<Emphasis Type="Italic">Paramisgurnus dabryanus</Emphasis>)

The mechanisms of sex determination and differentiation have not been elucidated in most fish species. In this study, the full-length cDNAs of DAX1 was cloned and characterized in aquaculture fish Chinese loach (Paramisgurnus dabryanus), designated as Pd-DAX1. The cDNA sequence of Pd-DAX1 was 1261 bp, including 795 bp open reading frame (ORF) encoding 264 amino acids. Pd-DAX1 shares highly identical sequence with DAX1 homologues from different species. The expression profiles of Pd-DAX1 in different developmental stages and diverse adult tissues were analyzed by quantitative real-time RT-PCR and in situ hybridization (ISH). Pd-DAX1 was continuously expressed during embryogenesis, with the extensive distribution in the development of the central nervous system. Tissue distribution analysis revealed that Pd-DAX1 expressed widely in adult tissues, with the highest expression level found in testis, moderate level in ovary, showing a sex-dimorphic expression pattern. Pd-DAX1 mainly located in spermatogonia cells, spermatocytes, primary oocytes and previtellogenic oocyte cells, implying that Pd-DAX1 may involve in gametogenesis. These preliminary findings suggest that Pd-DAX1 gene is highly conserved during vertebrate evolution and involved in a wide range of developmental processes including embryogenesis, central nervous system development and gonad development.     

Molecular cloning,characterization, and functional analysis of a gene encoding 3-hydroxy-3-methylglutaryl-coenzyme A synthase from <Emphasis Type="Italic">Matricaria chamomilla</Emphasis>

3-Hydroxy-3-methylglutaryl-CoA synthase (HMGS) catalyzes the condensation of acetyl-CoA and acetoacetyl-CoA to form 3-hydroxy-3-methylglutaryl-CoA as the first committed enzyme in the mevalonate (MVA) pathway. HMGS plays an important role in the biosynthesis of the sesquiterpene, which is the main constituent of essential oil in Matricaria chamomilla. In this paper, a HMGS gene designated as McHMGS (GenBank Accession No. KU529970) was successfully cloned from M. chamomilla. The full-length cDNA of McHMGS was 1495-bp and contained a 1374-bp open reading frame. It encoded a 458-amino-acid protein with a calculated molecular weight of about 50.7 kDa and isoelectric point of 5.69. Sequence comparison revealed that McHMGS showed extensive homology with HMGSs from other plant species. Phylogenetic tree analysis indicated that McHMGS is clustered with the HMGS of Asteraceae in the dicotyledoneae clade. Further functional complementation of McHMGS in hmgs-deficient mutant yeast strain YSC6274 demonstrated that cloned McHMGS cDNA encodes a functional HMGS and mediates the MVA biosynthesis in yeasts. The tissue expression pattern analysis revealed that McHMGS expression level is highest in the flowers and lowest in the stems. Quantitative real-time PCR analysis showed that the expression of McHMGS was induced by MeJA, and the expression level is highest 24 h after induction. The characterization and expression of McHMGS can help in further studying the role of McHMGS gene in the biosynthesis of sesquiterpene in M. chamomilla.     

Molecular characterization and expression analysis of <Emphasis Type="Italic">Hsp90</Emphasis> in <Emphasis Type="Italic">Schizothorax prenanti</Emphasis>

Aquatic animals suffer from various environmental stresses because the aquatic environment is a very complex system. To monitor the health status of fish, Hsp90 a potential early warning marker was determined in Schizothorax prenanti after infection with a bacterium. In this study, we cloned Hsp90 from S. prenanti for the first time. The full-length cDNA sequence of SpHsp90 was 2663 bp, contains an open reading frame of 2181 bp, and has a gene encoding 726 amino acids, an estimated molecular mass of 83.38 kDa, and a theoretical isoelectric point of 4.91. The SpHsp90 amino acid sequence has five conserved HSP90 family signatures and shares 87.0–95.5 % identity with other vertebrates. Phylogenetic analysis and structure comparison indicated that SpHsp90 should be a β isoform of the HSP90 family. SpHsp90 was ubiquitously expressed in all examined tissues, and the highest level of expression was in the kidney. After Streptococcus agalactiae infection, the level of SpHsp90 expression had significant changes (P < 0.05) in the hepatopancreas, spleen, kidney, and blood. The expression increased to the highest level at 6 h in the blood and at 24 h in the hepatopancreas, spleen, and kidney. The results suggested that the SpHsp90 gene could be induced by S. agalactiae in S. prenanti and that SpHsp90 may be involved in resistance to bacterial infection and provide an early warning information. The kidney is the most suitable for detecting SpHsp90 after bacterial infection.     

<Emphasis Type="Italic">Adlardia</Emphasis><Emphasis Type="Italic">novaecaledoniae</Emphasis> n. g., n. sp. (Digenea: Cryptogonimidae) from the fork-tailed threadfin bream <Emphasis Type="Italic">Nemipterus furcosus</Emphasis> (Val.) (Perciformes: Nemipteridae) off New Caledonia

Adlardia novaecaledoniae n. g., n. sp. (Digenea: Cryptogonimidae) is described from the fish Nemipterus furcosus (Val.) (Perciformes: Nemipteridae) from off New Caledonia (South Pacific). Adlardia n. g. is distinguished from all other cryptogonimid genera by the combination of an elongate body, the presence of oral spines, intestinal caeca that open via ani at the posterior end of the body, a highly lobed ovary, oblique testes that are located in the mid-hindbody, vitelline follicles that extend from midway between the testes and ovary to midway between the ovary and ventral sucker, and an excretory vesicle that bifurcates dorsal to the ovary and reunites immediately anterior to the pharynx. A. novaecaledoniae n. sp. is the only cryptogonimid that has been reported with an excretory vesicle that reunites anterior to the pharynx. Siphoderina elongata (Gu &; Shen, 1979) Miller &; Cribb, 2008 is transferred to Adlardia as A. elongata (Gu &; Shen, 1979) n. comb. based on morphological and ecological (host group) agreement with A. novaecaledoniae. Bayesian inference analysis of LSU rDNA revealed that A. novaecaledoniae nested well within a clade containing cryptogonimid taxa known almost exclusively from haemulid and lutjanid fishes, suggesting that host-switching between teleosts of the Haemuloidea, Lutjanoidea and Sparoidea may have been common in the evolutionary history of this system.     

Silencing of <Emphasis Type="Italic">Mythimna separata chitinase</Emphasis> genes via oral delivery of <Emphasis Type="Italic">in planta</Emphasis>-expressed RNAi effectors from a recombinant plant virus

Objectives

To evaluate transient expression of RNA interference (RNAi) effectors in Nicotiana benthamiana plants by using recombinant virus vectors and also oral delivery of the effectors for silencing of Mythimna separata endogenous gene expression.

Results

Mythimna separata is a serious pest of corn production in China. To evaluate RNAi approaches to target specific RNAs in M. separate, we cloned fragments of the M. separata chitinase sequences into a virus vector in order to produce RNAi effectors during virus infection and replication in plants. When the infected plants were fed to M. separata, expression levels of target MseChi1 and MseChi2 genes were down-regulated by 76 and 45 %, respectively, and sequence-specific siRNAs were detected in recipient insects. RNAi-based silencing of chitinase genes also led to body weight decreases by 43 %.

Conclusion

Our research demonstrates target mRNA knockdown and suggests a promising application for controlling of M. separata by in planta expression of RNAi effectors using a recombinant plant virus.

     

Over-expression of tobacco <Emphasis Type="Italic">UBC1</Emphasis> encoding a ubiquitin-conjugating enzyme increases cadmium tolerance by activating the 20S/26S proteasome and by decreasing Cd accumulation and oxidative stress in tobacco (<Emphasis Type="Italic">Nicotiana tabacum</Emphasis>)

Ubiquitin (Ub)-conjugating enzyme (UBC, E2) receives Ub from Ub-activating enzyme (E1) and transfers it to target proteins, thereby playing a key role in Ub/26S proteasome-dependent proteolysis. UBC has been reported to be involved in tolerating abiotic stress in plants, including drought, salt, osmotic and water stresses. To isolate the genes involved in Cd tolerance, we transformed WT (wild-type) yeast Y800 with a tobacco cDNA expression library and isolated a tobacco cDNA, NtUBC1 (Ub-conjugating enzyme), that enhances cadmium tolerance. When NtUBC1 was over-expressed in tobacco, cadmium tolerance was enhanced, but the Cd level was decreased. Interestingly, 20S proteasome activity was increased and ubiquitinated protein levels were diminished in response to cadmium in NtUBC1 tobacco. By contrast, proteasome activity was decreased and ubiquitinated protein levels were slightly enhanced by Cd treatment in control tobacco, which is sensitive to Cd. Moreover, the oxidative stress level was induced to a lesser extent by Cd in NtUBC1 tobacco compared with control plants, which is ascribed to the higher activity of antioxidant enzymes in NtUBC1 tobacco. In addition, NtUBC1 tobacco displayed a reduced accumulation of Cd compared with the control, likely due to the higher expression of CAX3 (Ca²⁺/H⁺ exchanger) and the lower expression of IRT1 (iron-responsive transporter 1) and HMA-A and -B (heavy metal ATPase). In contrast, atubc1 and atubc1atubc2 Arabidopsis exhibited lower Cd tolerance and proteasome activity than WT. In conclusion, NtUBC1 expression promotes cadmium tolerance likely by removing cadmium-damaged proteins via Ub/26S proteasome-dependent proteolysis or the Ub-independent 20S proteasome and by diminishing oxidative stress through the activation of antioxidant enzymes and decreasing Cd accumulation due to higher CAX3 and lower IRT1 and HMA-A/B expression in response to 50 µM Cd challenge for 3 weeks.     

Cloning and expression of <Emphasis Type="Italic">Perilla frutescens FAD2</Emphasis> gene and polymorphism analysis among cultivars

?12 fatty acid desaturase (FAD2) is a key enzyme for linoleic acid and linolenic acid biosynthesis. Perilla frutescens is a special oil plant species with highest linolenic acid content. In this study, based on RACE, two alleles for one FAD2 gene were isolated from P. frutescens cultivar C2: the 3956 bp PfFAD2a and the 3959 bp PfFAD2b, both with a full-length cDNA of 1526 bp, and both encoding a 382aa basic protein. The alleles have identities of over 98%, and their encoded proteins differ only by substitution of a strongly similar residue. Saccharomyces cerevisiae heterologous expression suggested that PfFAD2a/b both encode a bio-functional FAD2 enzyme. Phylogenetic analyses indicated that PfFAD2 shows the highest homologies to FAD2 genes from dicots such as Boraginaceae and Burseraceae. PfFAD2a/b expressions are mainly restricted to developing seeds. PfFAD2a/b expression in the seedling leaf is upregulated by cold (4 °C) and repressed by heat (42 °C). Each of the eight cultivars contains two alleles for one PfFAD2 and 40 SNP sites are found. One allelic gene in cultivars C1 and P1 is pseudogene because of premature stop codon mutation in 5′ coding region. All other normal PfFAD2 genes/allelic genes encode identical or very similar proteins. PfFAD2a/b expression level in developing seeds also varies among the eight cultivars. This study provides systemic molecular and functional features of PfFAD2 and enables its application in the study of plant fatty acids traits.