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Calcium serves as a second messenger in various signal transduction pathways in plants. CBL-interacting protein kinases (CIPKs),
which have a variety of functions, are involved in calcium signal transduction. Previous, the studies on CIPK family members
focused on Arabidopsis and rice. Here, we present a comparative genomic analysis of the CIPK gene family in Arabidopsis and poplar, a model tree species. Twenty-seven potential CIPKs were identified from poplar using genome-wide analysis. Like
the CIPK gene family from Arabidopsis, CIPK genes from poplar were also divided into intron-free and intron-harboring groups. In the intron-harboring group, the
intron distribution of CIPKs is rather conserved during the genome evolutionary process. Many homologous gene pairs were found
in the CIPK gene family, indicating duplication events might contribute to the amplification of this gene family. The phylogenetic
comparison of CIPKs in combination with intron distribution analysis revealed that CIPK genes from both Arabidopsis and poplar might have an ancient origin, which formed earlier than the separation of these two eudicot species. Our genomic
and bioinformatic analysis will provide an important foundation for further functional dissection of the CBL-CIPK signaling
network in poplars.
Electronic Supplementary Material
The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
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An Arabidopsis deletion mutant was fortuitously identified from the alpha population of T-DNA insertional mutants generated
at the University of Wisconsin Arabidopsis Knockout Facility. Segregation and reciprocal crosses indicated that the mutant
was a gametophytic pollen sterile mutant. Pollen carrying the mutation has the unusual phenotype that it is viable, but cannot
germinate. Thus, the mutant was named pollen germination defective mutant 1 (pgd1), based on the pollen phenotype. Flanking sequences of the T-DNA insertion in the pgd1 mutant were identified by thermal asymmetric interlaced (TAIL) PCR. Sequencing of bands from TAIL PCR revealed that the T-DNA
was linked to the gene XLG1, At2g23460, at its downstream end, while directly upstream of the T-DNA was a region between At2g22830 and At2g22840, which
was 65 genes upstream of XLG1. Southern blotting and genomic PCR confirmed that the 65 genes plus part of XLG1 were deleted in the pgd1 mutant. A 9,177 bp genomic sequence containing the XLG1 gene and upstream and downstream intergenic regions could not rescue the pgd1 pollen phenotype. One or more genes from the deleted region were presumably responsible for the pollen germination defect
observed in the pgd1 mutant. Because relatively few mutations have been identified that affect pollen germination independent of any effect on
pollen viability, this mutant line provides a new tool for identification of genes specifically involved in this phase of
the reproductive cycle. 相似文献
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Previously it has been shown that the floral scent of snapdragon flowers consists of a relatively simple mixture of volatile
organic compounds (VOCs). These compounds are thought to be involved in the attraction of pollinators; however, little is
known about their effect on other organisms, such as neighboring plants. Here, we report that VOCs from snapdragon flowers
inhibit Arabidopsis root growth. Out of the three major snapdragon floral volatiles, myrcene, (E)-β-ocimene, and methyl benzoate (MB), MB was found to be primarily responsible for the inhibition of root growth. Ten micromoles
MB reduced root length by 72.6%. We employed a microarray approach to identify the MB target genes in Arabidopsis that were responsible for the root growth inhibition phenotype in response to MB. These analyses showed that MB treatment
affected 1.33% of global gene expression, including cytokinin, auxin and other plant-hormone-related genes, and genes related
to seed germination processes in Arabidopsis. Accordingly, the root growth of cytokinin (cre1) and auxin (axr1) response mutants was less affected than that of the wild type by the volatile compound: roots of the treated mutants were
reduced by 45.1 and 56.2%, respectively, relative to untreated control mutants.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
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One of the rare weak points of the model plant Arabidopsis is the technical problem associated with the germination of its male gametophyte and the generation of the pollen tube in
vitro. Arabidopsis pollen being tricellular has a notoriously low in vitro germination compared to species with bicellular pollen. This drawback
strongly affects the reproducibility of experiments based on this cellular system. Together with the fact that pollen collection
from this species is tedious, these are obstacles for the standard use of Arabidopsis pollen for experiments that require high numbers of pollen tubes and for which the percentage of germination needs to be
highly reproducible. The possibility of freeze-storing pollen after bulk collection is a potential way to solve these problems,
but necessitates methods that ensure continued viability and reproducible capacity to germinate. Our objective was the optimization
of germination conditions for Arabidopsis pollen that had been freeze-stored. We optimized the concentrations of various media components conventionally used for in
vitro pollen germination. We found that in general 4 mM calcium, 1.62 mM boric acid, 1 mM potassium, 1 mM magnesium, 18% sucrose
at pH 7 and a temperature of 22.5°C are required for optimal pollen germination. However, different experimental setups may
deviate in their requirements from this general protocol. We suggest how to optimally use these optimized methods for different
practical experiments ranging from morphological observations of pollen tubes in optical and electron microscopy to their
bulk use for molecular and biochemical analyses or for experimental setups for which a specific medium stiffness is critical.
F. Bou Daher and Y. Chebli contributed equally to this study. 相似文献
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Earlier, a pollen-specific Oryza sativa indica pollen allergen gene (OSIPA), coding for expansins/pollen allergens, was isolated from rice, and its promoter—upon expression in tobacco and Arabidopsis—was found active during the late stages of pollen development. In this investigation, to analyze the effects of different
putative regulatory motifs of OSIPA promoter, a series of 5′ deletions were fused to β-glucuronidase gene (GUS) which were stably introduced into rice and Arabidopsis. Histochemical GUS analysis of the transgenic plants revealed that a 1631 bp promoter fragment mediates maximum GUS expression
at different stages of anther/pollen development. Promoter deletions to −1272, −966, −617, and −199 bp did not change the
expression profile of the pollen specificity. However, the activity of promoter was reduced as the length of promoter decreased.
The region between −1567 and −199 bp was found adequate to confer pollen-specific expression in both rice and Arabidopsis systems. An approximate 4-fold increase in the GUS activity was observed in the pollen of rice when compared to that of Arabidopsis. As such, the OSIPA promoter seems promising for generation of stable male-sterile lines required for the production of hybrids in rice and other
crop plants. 相似文献
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Ying Su Yumei Wang Junbo Zhen Xi Zhang Zhiwen Chen Le Li Yi Huang Jinping Hua 《Plant Molecular Biology Reporter》2017,35(4):442-456
SnRK2s are a large family of plant-specific protein kinases, which play important roles in multiple abiotic stress responses in various plant species. But the family in Gossypium has not been well studied. Here, we identified 13, 10, and 13 members of the SnRK2 family from Gossypium raimondii, Gossypium arboreum, and Gossypium hirsutum, respectively, and analyzed the locations of SnRK2 homologs in chromosomes based on genome data of cotton species. Phylogenetic tree analysis of SnRK2 proteins showed that these families were classified into three groups. All SnRK2 genes were comprised of nine exons and eight introns, and the exon distributions and the intron phase of homolog genes among different cotton species were analogous. Moreover, GhSnRK2.6 was overexpressed in Arabidopsis and upland cotton, respectively. Under salt treatment, overexpressed Arabidopsis could maintain higher biomass accumulation than wild-type plants, and GhSnRK2.6 overexpression in cotton exhibited higher germination rate than the control. So, the gene GhSnRK2.6 could be utilized in cotton breeding for salt tolerance. 相似文献
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Biotransformation of flavonoids using Escherichia coli harboring nucleotide sugar-dependent uridine diphosphate-dependent glycosyltransferases (UGTs) commonly results in the production
of a glucose conjugate because most UGTs are specific for UDP-glucose. The Arabidopsis enzyme AtUGT78D2 prefers UDP-glucose as a sugar donor and quercetin as a sugar acceptor. However, in vitro, AtUGT78D2 could
use UDP-N-acetylglucosamine as a sugar donor, and whole cell biotransformation of quercetin using E. coli harboring AtUGT78D2 produced quercetin 3-O-N-acetylglucosamine. In order to increase the production of quercetin 3-O-N-acetylglucosamine via biotransformation, two E. coli mutant strains deleted in phosphoglucomutase (pgm) or glucose-1-phosphate uridylyltransferase (galU) were created. The galU mutant produced up to threefold more quercetin 3-O-N-acetylglucosamine than wild type, resulting in the production of 380-mg/l quercetin 3-O-N-acetylglucosamine and a negligible amount of quercetin 3-O-glucoside. These results show that construction of bacterial strains for the synthesis of unnatural flavonoid glycosides
is possible through rational selection of the nucleotide sugar-dependent glycosyltransferase and engineering of the nucleotide
sugar metabolic pathway in the host strain. 相似文献
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Plants have evolved several defense mechanisms, including resistance genes. Resistance to the root-knot nematode Meloidogyne
incognita has been found in wild plant species. The molecular basis for this resistance has been best studied in the wild tomato Solanum peruvianum and it is based on a single dominant gene, Mi-1.2, which is found in a cluster of seven genes. This nematode attacks fiercely several crops, including potatoes. The genomic
arrangement, number of copies, function and evolution of Mi-1 homologs in potatoes remain unknown. In this study, we analyzed partial genome sequences of the cultivated potato species
S. tuberosum and S. phureja and identified 59 Mi-1 homologs. Mi-1 homologs in S. tuberosum seem to be arranged in clusters and located on chromosome 6 of the potato genome. Previous studies have suggested that Mi-1 genes in tomato evolved rapidly by frequent sequence exchanges among gene copies within the same cluster, losing orthologous
relationships. In contrast, Mi-1 homologs from cultivated potato species (S. tuberosum and S. phureja) seem to have evolved by a birth-and-death process, in which genes evolve mostly by mutations and interallelic recombinations
in addition to sequence exchanges. 相似文献
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Maofu Li Kaikai Zhu Songling Bai Zhi Liu Tianzhong Li 《Molecular breeding : new strategies in plant improvement》2011,28(2):171-180
Apple (Malus domestica Borkh.) possesses gametophytic self-incompatibility (GSI) which is controlled by S-RNase in the pistil as well as a pollen S-determinant that has not been well characterized. The identification of S-locus F-box brother (SFBB) genes, which are good candidates for the pollen S-determinant in apple and pear, indicated the presence of multiple S-allelic polymorphic F-box genes at the S-locus. In apple, two SFBB gene groups have been described, while there are at least three groups in pear. In this report, we identified five MdSLFB (S-RNase-linked F-box) genes from four different S-genotypes of apple. These genes showed pollen- and S-allele-specific expression with a high polymorphism among S-alleles. The phylogenetic tree suggested that some of them belong to SFBBα or β groups as described previously, while others
appear to be different from SFBBs. In particular, the presence of MdSLFB3 and MdSLFB9 suggested that there are more S-allelic polymorphic F-box gene groups in the S-locus besides α and β. Based on the sequence polymorphism of MdSLFBs, we developed an S-genotyping system for apple cultivars. In addition, we isolated twelve MdSLFB-like genes, which showed pollen-specific expression without S-allelic polymorphism. 相似文献
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Himi E Maekawa M Miura H Noda K 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,122(8):1561-1576
The grain color of wheat affects not only the brightness of flour, but also tolerance to preharvest sprouting. Grain color
is controlled by dominant R-1 genes located on the long arm of hexaploid wheat chromosomes 3A, 3B, and 3D (R-A1, R-B1, and R-D1, respectively). The red pigment of the grain coat is composed of catechin and proanthocyanidin (PA), which are synthesized
via the flavonoid biosynthetic pathway. We isolated the Tamyb10-A1, Tamyb10-B1, and Tamyb10-D1 genes, located on chromosomes 3A, 3B, and 3D, respectively. These genes encode R2R3-type MYB domain proteins, similar to
TT2 of Arabidopsis, which controls PA synthesis in testa. In recessive R-A1 lines, two types of Tamyb10-A1 genes: (1) deletion of the first half of the R2-repeat of the MYB region and (2) insertion of a 2.2-kb transposon belonging
to the hAT family. The Tamyb10-B1 genes of recessive R-B1 lines had 19-bp deletion, which caused a frame shift in the middle part of the open reading frame. With a transient assay
using wheat coleoptiles, we revealed that the Tamyb10 gene in the dominant R-1 allele activated the flavonoid biosynthetic genes. We developed PCR-based markers to detect the dominant/recessive alleles
of R-A1, R-B1, and R-D1. These markers proved to be correlated to known R-1 genotypes of 33 varieties except for a mutant with a single nucleotide substitution. Furthermore, double-haploid (DH) lines
derived from the cross between red- and white-grained lines were found to necessarily carry functional Tamyb10 gene(s). Thus, PCR-based markers for Tamyb10 genes are very useful to detect R-1 alleles. 相似文献
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Buriev ZT Saha S Shermatov SE Jenkins JN Abdukarimov A Stelly DM Abdurakhmonov IY 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(8):1359-1373
The Gossypium MIC-3 (Meloidogyne Induced Cotton-3) gene family is of great interest for molecular evolutionary studies because of its uniqueness to Gossypium species, multi-gene content, clustered localization, and root-knot nematode resistance-associated features. Molecular evolution
of the MIC-3 gene family was studied in 15 tetraploid and diploid Gossypium genotypes that collectively represent seven phylogenetically distinct genomes. Synonymous (dS) and non-synonymous (dN) nucleotide substitution rates suggest that the second of the two exons of the MIC-3 genes has been under strong positive selection pressure, while the first exon has been under strong purifying selection to
preserve function. Based on nucleotide substitution rates, we conclude that MIC-3 genes are evolving by a birth-and-death process and that a ‘gene amplification’ mechanism has helped to retain all duplicate
copies, which best fits with the “bait and switch” model of R-gene evolution. The data indicate MIC-3 gene duplication events occurred at various rates, once per 1 million years (MY) in the allotetraploids, once per ~2 MY in
the A/F genome clade, and once per ~8 MY in the D-genome clade. Variations in the MIC-3 gene family seem to reflect evolutionary selection for increased functional stability, while also expanding the capacity
to develop novel “switch” pockets for responding to diverse pests and pathogens. Such evolutionary roles are congruent with
the hypothesis that members of this unique resistance gene family provide fitness advantages in Gossypium. 相似文献
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Overexpression of a putative maize calcineurin B-like protein in <Emphasis Type="Italic">Arabidopsis</Emphasis> confers salt tolerance 总被引:5,自引:0,他引:5
Wang M Gu D Liu T Wang Z Guo X Hou W Bai Y Chen X Wang G 《Plant molecular biology》2007,65(6):733-746
The calcineurin B-like proteins (CBLs) represent a unique family of calcium sensors in plants. Although extensive studies
and remarkable progress have been made in Arabidopsis (Arabidopsis thaliana) CBLs, their functions in other plant species are still quite limited. Here, we report the cloning and functional characterization
of ZmCBL4, a novel CBL gene from maize (Zea mays). ZmCBL4 encodes a putative homolog of the Arabidopsis CBL4/SOS3 protein, with novel properties. ZmCBL4 has one copy in maize genome and harbors seven introns in its coding region. ZmCBL4 expressed differentially in various organs of the maize plants at a low level under normal condition, and its expression
was regulated by NaCl, LiCl, ABA and PEG treatments. Expression of 35S::ZmCBL4 not only complemented the salt hypersensitivity in Arabidopsis
sos3 mutant, but also enhanced the salt tolerance in Arabidopsis wild type at the germination and seedling stages. Moreover, the LiCl tolerance in all of the ZmCBL4-expressing lines increased more significantly as compared with the NaCl tolerance, and in consistent with this, it was found
that the expression of Arabidopsis
AtNHX8, a putative plasma membrane Li+/H+ antiporter gene identified recently, was induced in these transgenic lines under LiCl stress. The ZmCBL4-expressing Arabidopsis lines accumulated less Na+ and Li+ as compared with the control plants. This study has identified a putative maize CBL gene which functions in the salt stress-elicited
calcium signaling and thus in the tolerance to salinity.
Database accession number: EF405963. 相似文献
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Marta Herreros-Villanueva Maximiliano Rodrigo Manuel Claver Pilar Muñiz Enrique Lastra Carlos García-Girón Maria Jesus Coma del Corral 《Molecular biology reports》2011,38(2):1315-1320
To evaluate the KRAS, BRAF, EGFR, and HER2 gene status in colorectal cancer by novel techniques and evaluate whether anti-HER2 therapies could be offered in the treatment
of these patients. There are conflicting data on the prevalence of BRAF mutations and EGFR and HER2 gene amplification in colorectal KRAS wild type patients. In our study we tried to evaluate these expressions and their relationship to future treatment assays.
Clinical–pathological data and paraffin-embedded specimens were collected from 186 patients who underwent colorectal resections
at General Yagüe Hospital in Burgos, Spain. KRAS and BRAF status was analyzed by real-time PCR in all patients. EGFR and HER2/NEU gene amplification was detected using fluorescent in situ hybridisation technique (FISH) in 38 KRAS and BRAF wild type patients. KRAS mutations were present in 48% of the colorectal cancer patients. BRAF mutations were present in 6.25% of the KRAS wild type patients. EGFR and HER2 gene amplification was observed in 5.3% and 26.3%, respectively, of KRAS and BRAF wild type colorectal cancer patients. HER2, but not EGFR gene amplification, was frequently observed in KRAS and BRAF wild type colorectal cancer patients. These data indicate that HER2 amplification could be one of the genes to be considered in the therapeutic management of colorectal cancer. 相似文献
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In a genetic screen for Arabidopsismutants displaying pleiotropic alterations in vegetative development and stress responses we have identified a T-DNA insertion mutation in the Cap Binding Protein 20 (CBP20) gene, that encodes the 20kDa subunit of the nuclear mRNA cap binding complex (nCBC). Plants homozygous for the recessive cbp20 mutation show mild developmental abnormalities, such as serrated rosette leaves, delayed development and slightly reduced stature. Loss of the cbp20 function also confers hypersensitivity to abscisic acid during germination, significant reduction of stomatal conductance and greatly enhanced tolerance to drought. Expression of the wild type cDNA by CaMV35S promoter provides full genetic complementation of the pleiotropic cbp20phenotype. Phenotypic characteristics of the cbp20 mutant are very similar to those of recently described abh1mutant that is defective in the 80kDa subunit of nCBC. Our data thus confirm that both genes are dedicated to the same function. CBP20 provides a new target for breeding efforts that aim at the improvement of drought tolerance in plants. Our results also show that screening for pleiotropic phenotypes in mutant plant populations may be a fruitful strategy to isolate genes for agronomically important traits. 相似文献
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Three AtHSP90 isoforms, cytosol-localized AtHSP90.2, chloroplast-localized AtHSP90.5, and endoplasmic reticulum (ER)-localized AtHSP90.7 genes, were constitutively overexpressed in Arabidopsis thaliana to study their functional mechanisms under oxidative stress. Overexpression of AtHSP90 genes reduced germination of transgenic seeds under oxidative stress. When exposed to 10 mM H2O2, AtHSP90 transgenic seedlings displayed lower activities of superoxide dismutase, catalase, and peroxidase; higher content of malondialdehyde;
and higher levels of protein damage than detected in the wild type. This indicated that overexpression of AtHSP90.2, AtHSP90.5, and AtHSP90.7 in Arabidopsis impaired plant tolerance to oxidative stress. Moreover, overexpression of chloroplast- and ER-localized AtHSP90 resulted in lower resistance to oxidative stress than that of cytosolic AtHSP90. This suggested that HSP90.2, HSP90.5, and HSP90.7 localized in different cellular compartments were involved in different functional mechanisms during oxidative stress. 相似文献