Evaluation of transgenic tobacco expressing two insecticidal genes to delay resistance development ofHelicoverpa armigera

The resistance ratio ofHelicoverpa armigera to Cry1 Ac insecticidal protein fromBacillus thuringiensis (Bt) is 13.1- and 3.02-fold after 18 generations of selection by transgenic tobacco expressing Bt or two (Bt and CpTI) insecticidal protein genes, in which the average corrected mortality for each selection treatments is about 60%. The mortality of selected population by transgenic Bt gene tobacco is significantly lower than the control strain when fed on transgenic tobacco plants. The mortaltty of the selected population by transgenic two genes tobacco was not significantly different from the control strain. This is the first experiment under laboratory condition which has proved that transgenic two genes tobacco could significantly delay resistance development ofH. armigera compared with one gene.     

Identification of CRE1 as a cytokinin receptor from Arabidopsis

Cytokinins are a class of plant hormones that are central to the regulation of cell division and differentiation in plants. It has been proposed that they are detected by a two-component system, because overexpression of the histidine kinase gene CKI1 induces typical cytokinin responses and genes for a set of response regulators of two-component systems can be induced by cytokinins. Two-component systems use a histidine kinase as an environmental sensor and rely on a phosphorelay for signal transduction. They are common in microorganisms, and are also emerging as important signal detection routes in plants. Here we report the identification of a cytokinin receptor. We identified Arabidopsis cre1 (cytokinin response 1) mutants, which exhibited reduced responses to cytokinins. The mutated gene CRE1 encodes a histidine kinase. CRE1 expression conferred a cytokinin-dependent growth phenotype on a yeast mutant that lacked the endogenous histidine kinase SLN1 (ref. 10), providing direct evidence that CRE1 is a cytokinin receptor. We also provide evidence that cytokinins can activate CRE1 to initiate phosphorelay signalling.     

Molecular cloning, chromosomal mapping and expression analysis of disease resistance gene homologues in rice (Oryza sativa L.)

Resistance-like sequences have been amplified from first strand cDNA and genomic DNA of rice by PCR using oligonucleotide primers designed from sequence motifs conserved between resistance genes of tobacco andArabidopsis thaliana. 3 PCR clones, designatedOsr1, Osr2 andOsr3 which were 98% identical in nucleotide sequence level, have been found to be significantly homologous to known plant resistance genes and all contained the conserved motifs of NBS-LRR type resistance genes, such as P-loop, kinase2a, kinase3a and transmembrane domain.Southern hybridization revealed that rice resistance gene hornologueswere organized as a cluster in the genome. RFLP mapping using a DH population derived from anindica/japonka cross (Zhaiyeqing 8/Jingxi 17) and an RFLP linkage map assigned two copies ofOsrl and one copy ofOsr3 to the distal position of chromosome 12 where a blast resistance QTL has been mapped previously. Northern blot analysis showed thatOsrl gene was constitutively transcribed in rice leaves, shoots and roots. Further study concerning isolation of full-length cDNAs would be conducive to elucidating the functions of these genes.     

Effects ofPKCα antisense RNA on human breast cancer cell proliferation and expression ofcyclinD1 andCDK4

The role of PKCα in human breast cancer cell proliferation and expression ofcyclinD1 andCDK4 has been investigated using inhibition ofPKCα expression by its antisense RNA. WhenPKCα expression was inhibited the rate of cell proliferation decreased apparently and the levels ofcyclinD1 andCDK4 mRNA were lower than the control. The results showed thatPKCα, a key member of signal transduction system, played an important role in human breast cancer cell proliferation and had a close relationship with expression ofcyclinD1 andCDK4 which control start of cell cycle.     

Cloning and characterization of vernalization-related gene (ver203F) cDNA 3′ end

Based on the cDNA fragment sequence of vernalization-related geneverc203 cloned by differential screening in our lab, the 5′ primer has been designed. The cDNA 3′ end ofver203 gene (1 197 bp) has been cloned by the RACE method. And it is identified by Northern blotting that its expression is special in vernalization treatment. After comparing the sequence in the nucleotide sequence databases of Genbank, EMBL and DDBJ, the gene has homology withHordeum vulgare jesmonate-induced protein gene. It is suggested that this gene might be related to the signal transduction mediated by jamonate.     

Subcellular localization and functional analyses of structural domains of COP1 in transgenic tobacco

Plants have evolved an extremely exquisite light signal regulatory network to adapt to the changing ambient light conditions, in which COP1 plays a critical role of the light signal transduction. Based on the cloned pea COP1 cDNA sequence and its protein structure, four individual gene fragments encoding different structural domains of the COP1 were designed to fuse to the GFP gene. The plant expression vectors containing these fusion genes as well as the COP1GFP fusion gene were constructed and used to transform tobacco by Agribacterium as confirmed by Southern analyses. Antibodies were raised against the recombinant GFP-COP1 overproduced in Escherichia coli. Immunoblotting results demonstrated that all of the fusion genes were constitutively expressed in transgenic tobacco plants. We systematically investigated the different subcellular localization of these fusion proteins and the resulting phenotypic characteristics of these transgenic plants under light and dark conditions. Our data show that (1) the molecular mass of the tobacco endogenous COP1 protein is 76 kD. It is constitutively expressed in all of the tested tissues and the total cellular content of COP1 protein is not noticeably affected by light conditions. (2) The nuclear localization signal of COP1 plays a critical role in regulation of its nuclear-cytoplasmic partitioning. The subcellular localization of the COP1 protein containing nuclear localization signal is regulated by light in the epidermal cells of leaves, but, it is located in nucleus constitutively in root cells. (3) The coiled-coil domain is very critical to the function of COP1 protein, while the zinc binding RING finger domain only plays a supportive role. (4) The WD-40 repeats domain is essential to the COP1 function, but this domain alone does not affect photomorphogenesis. (5) Overexpression of COP1 protein not only inhibits the photomorphogenesis of the stems and leaves of the transgenic tobacco, but also results in the generation of short and clustered roots. In contrast, overexpression of COP1 protein without WD-40 repeats domain promotes the photomorphogenesis process in the stems and leaves and lead to root elongation and lack of lateral roots. The COP1-COP1 interaction happens not only in the nucleus, but also in cytoplasm.     

Expression of two insect-resistant genescryIA (b&c)/GNA in transgenic tobacco plants results in added protection against both cotton bollworm and aphids

The synthesizedBacillus thuringiensis insecticidal protein gene cryIA(b&c) and the synthesized geneGNA, (the mannose specific lectin from snowdrop (Galanthus nivalis)), tumefaciens have been inserted into plant expression vector pGW4BAI. Leave stripes ofNicotiana tabacum var. K326 have been transformed withAgrobacterium tumefaciens strain LBA4404 harboring the plant expression vector. 28 kanamycin resistant tobacco plants have been obtained. PCR and Southern blot analyses show that the foreigncryIA andGNA genes have been inserted into the genome of transformed tobacco plants. Haemagglutination assays show thatGNA has a functional activity. Leaf disc bioassays against cotton bollworm (H. armigera) show that the transgenic tobacco plants have a high insecticidal activity. The inhibition of aphid population in leaf disc bioassays againstMyzus persicae shows that the fecundity of aphid on transgenic plants is lower than that on untransformed plants; the aphid population on the transgenic tobacco plants is 25%–70% that on untransformed tobacco plants. ELISA analysis of ClyIA protein in tobcco leaves provides similar data to bioassay results. Through the two bioassays againstH. armigera andM. persicae, several transgenic tobacco plants showing high insect-resistant activities to both pests have been obtained.     

Two-Component Signal Transduction Systems in the Cyanobacterium Synechocystis sp. PCC 6803

Introduction Rapid adaptation to environmental challenges is vitally important for bacterial survival and growth. One way in which bacteria control their response to changing environmental conditions is through the mechanism of two-component signal transd…     

Brassinosteroid signal transduction: An emerging picture

Brassinosteroids (BRs) are plant steroid hormones that have similar structures and functions with Brassino-lide (BL). BR signaling is complicated, and the input of BR signal is under fine control. The active BR level is regulated at the levels of BR biosynthesis and metabolic inactivation[1,2]. BR biosynthetic pathway consists of a metabolic grid, and the expression of several genes for BR biosynthesis is feedback regulated by BR signaling[3,4]. The sequential events of BR action inclu…     

Involvement of heterotrimeric G protein in signal transduction of extracellular calmodulin in regulatingrbcS expression

The role of heterotrimeric G protein in signal transduction pathway of extracellular calmodulin in regulating rbcS expression was examined in suspension-cultured cells of transgenic tobacco. Pharmalogical experiments indicated that G protein agonist cholera toxin enhanced rbcS expression and heterotrimeric G protein antagonist pertussis toxin inhibited rbcS expression in transgenic tobacco cells. Pertussis toxin also inhibited the enhancement effect caused by exogenous purified calmodulin on rbcS expression, whereas cholera toxin completely reversed the inhibitory effects caused by anti-calmodulin serum on rbcS expression. The right side-out vesicles from tobacco cell membrane were purified, which contained all of substrates for fluometric assay of GTPase activity. Exogenous purified calmodulin, when adding directly to the medium of plasma membrane vesicles, significantly activated GTPase activity in the right side-out plasma membrane vesicles, and this increase in GTPase activity was completely inhibited both by heterotrimeric G proteins antagonist pertussis toxin and nonhy-drolyzable GTP analogs GMP-PCP. These results provided the evidence that heterotrimeric G proteins may be involved in signal transduction pathways of extracellular calmodulin to regulate rbcS gene expression.     

Localization of muscarinic acetylcholine receptor in plant guard cells

Acetylcholine (ACh), as an important neurotransmitter in animals, also plays a significant role in various kinds of physiological functions in plants. But relatively little is known about its receptors in plants. A green fluorescence BODIPY FL-labeled ABT, which is a high affinity ligand of muscarinic acetylcholine receptor (mAChR), was used to localize mAChR in plant guard cells. InVicia faba L. andPisum sativum L., mAChR was found both on the plasma membrane of guard cells. mAChR may also be distributed on guard cell chloroplast membrane ofVicia faba L. The evidence that mAChR localizes in the guard cells provides a new possible signal transduction pathway in ACh mediated stomata movement.     

Nitric oxide involved in signal transduction of Jasmonic acid-induced stomatal closure of Vicia faba L.

Nitric oxide (NO) and Jasmonic acid (JA) are two key signaling molecules involved in many and diverse biological pathways in plants. Growing evidence suggested that NO signaling interacts with JA signaling. In this work, Our experiment showed that NO exists in guard cell of Vicia faba L., and NO is involved in signal transduction of JAinduced stomata closuring: ( i ) JA enhances NO synthesis in guard cell; ( ii ) both JA and NO induced stomatal closure, and had dose response to their effects; ( iU ) there are synergetic correlation between JA and lower NO concentration in regulation of stomatal movement; (iV) JA-induced stomatal closure was largely prevented by 2-phenyl-4,4,5,5-tetramethylimidazoline-l-oxyl-3-oxide (PTIO), a specific NO scavenger. An inhibitor of NO synthase (NOS) in mammalian cells, N^G-nitro-L-Arg-methyl eater (L-NAME) also inhibits plant NOS, repressing JA-induced NO generation and JA-induced stomatal closure. We presumed that NO mainly comes from NOS after JA treatment.     

Expression ofBcl-2 in cells with different telomerase activities

Both telomerase andBcl-2 are important genes in controlling apoptosis. The activation of telomerase and the abnormal regulation ofBcl-2 are also closely related to carcinogenesis. However, little is known about the linkage between telomerase andBcl-2. The effect of activated telomerase on the expression ofBcl-2 has been investigated. It is demonstrated that in tumor and transformed cells with higher telomerase activity,Bcl-2 expression is significantly lower than that in telomerase negative or less telomerose activity cells. Further study showed that in the telomerase gene-transformed 2BS-fibroblasts,Bcl-2 expression is inhibited significantly while the exogenous telomerase catalytic subunit gene is re-expressed in fibroblasts. Results indicated that there might be a certain linkage between the expression of telomerase andBcl-2, and overexpression of exogenous telomerase gene might down regulate the expression ofBcl-2. They contributed equally to this work.     

Systemic defense signaling in tomato

The wound-inducible expression of proteinase inhibitors （PIs） genes in tomato provides a powerful model system to elucidate the signal transduction pathway of systemic defense response. An increasing body of evidence indicates that systemin and jasmonic acid （JA） work in the same signaling pathway to activate the expression of Pls and other defense-related genes. However, little is known about how systemin and JA interact to regulate cell to cell communication over long distances. Genetic analysis of the systemin/JA signaling pathway in tomato plants provides a unique opportunity to dissect the mechanism by which peptide and oxylipin signals interact to coordinate systemic expression of defense-related genes. Previously, it has been proposed that systemin is the long-distance mobile signal for systemic expression of defense related genes. However, recent genetic approach provided new evidence that jasmonic acid, rather than systemin, functions as the systemic wound signal, and that the peptide systemin works to regulate the biosynthesis of JA.     

Genetic pathways that regulate ageing in model organisms

Searches for genes involved in the ageing process have been made in genetically tractable model organisms such as yeast, the nematode Caenorhabditis elegans, Drosophila melanogaster fruitflies and mice. These genetic studies have established that ageing is indeed regulated by specific genes, and have allowed an analysis of the pathways involved, linking physiology, signal transduction and gene regulation. Intriguing similarities in the phenotypes of many of these mutants indicate that the mutations may also perturb regulatory systems that control ageing in higher organisms.