WUSCHEL-related homebox (WOX) gene family is a type of plant specific transcription factor, and belongs to the homeobox (HB) transcription factor superfamily. WOX genes play an important role in plant development, such as stem cell regulation and reproductive progress, and have been identified in many plant species. However, the information of mungbean VrWOX genes is limited. In this study, we identified 42 VrWOX genes in mungbean genome using Arabidopsis AtWOX genes as BLAST queries. VrWOX genes are unevenly distributed on 11 mungbean chromosomes, and chromosome 7 contains the most VrWOX genes. VrWOX genes are classified into three subgroups, the ancient group, the intermediate group and the modern/WUSCHEL group, which contains 19, 12 and 11 VrWOX members, respectively. Intraspecific synteny analysis revealed 12 VrWOX duplicated gene pairs in mungbean. Mungbean and Arabidopsis thaliana have 15 orthologous genes, and mungbean and Phaseolus vulgaris have 22 orthologous genes, respectively. The gene structure and conserved motif are different among VrWOX genes, indicating their functional diversity. The promoter regions of VrWOX genes contain different number and type of cis-acting elements, and VrWOX genes show distinct expression levels in eight mungbean tissues. Our study investigated the bioinformation and expression profiles of VrWOX genes, and provided essential information for further functional characterization of VrWOX genes.
Vigna/genetics* ; Fabaceae/genetics* ; Transcription Factors/genetics* ; Plants

We obtained intergenus somatic hybrid between Alhagi pseudalhagi and Astragalus cicer by using electroporation. Agrobacterium rhizogenes A4-transformed A. pseudalhagi protoplasts were treated with iodoacetamide so that they were unable to sustain divisions. A. cicer protoplasts were isolated from a methionine-resistant mutant and did not survive in the medium without plant growth regulator. The intergenus somatic hybrid cells were selected based on physiological complementation between the two parents. We optimized some parameters of electroporation, such as direct current impulse, alternating current impulse and the impulse number. We identified ten hybrid clones by morphological observation, checking the chromosome numbers, isoenzyme analysis and random amplified polymorphic DNA analysis, and obtained regenerated plantlets from three hybrid clones.
Astragalus Plant ; genetics ; physiology ; Electroporation ; Fabaceae ; genetics ; physiology ; Hybridization, Genetic ; Transformation, Genetic

OBJECTIVETo explore the quality variation and genetic diversity of Desmodium styracifolium from different provenances, and lay a foundation for rational exploitation on germplasm resources and fine variety breeding of D. styracifolium.

METHODAmplified fragment length polymorphism (AFLP) markers were developed to analyze genetic diversity in D. styracifolium from 18 resources. NTSYSpc-2. 11F software was used to analyze the similarity among the D. styracifolium germplasms and construct the genetic phylogenetic tree. The schaftoside content in D. styracifolium from different provenances was determined by HPLC.

RESULTA total of 844 fragments were amplified with 8 primers, in which 717 were polymorphic bands, accounting for 84. 27% of the total detected variation. All the specimens from 18 resources could be grouped into 3 clusters by cluster analysis. The schaftoside contents of D. styracifolium germplasms differed significantly, with the highest content in the germplasm from Sanya, Hainan.

CONCLUSIONSignificant quality variation and genetic diversity can be observed among D. styracifolium germplasms. The diverse germplasm resources should be explored and the fine variety should be selected to breed.

Amplified Fragment Length Polymorphism Analysis ; Fabaceae ; classification ; genetics ; Genetic Variation ; genetics

Ammopiptanthus mongolicus shows very strong resistance to severe environments. To isolate drought-resistant genes and elucidate drought-resistant molecular mechanisms of the plant, we constructed a drought-induced full-length cDNA library using SMART (Switching mechanism at 5'-end of RNA transcript) technique. The phage titer of the unamplified library was 1.6 x 10(7) PFU/mL; the recombination percentage was 97.7%; and the sizes of most cloned cDNA fragments were around 1 kb. Three thousand positive clones were randomly selected and sequenced from their 5' ends, and a total of 1 450 Unigenes were identified. By Blast searches against the Nt, Nr and Swissprot databases, we found that 919 Unigenes (amount to 63.4%) showed significant similarity to the annotated genes, and the remaining 531 Unigenes (amount to 36.6%) represented novel genes without any annotation. Among the functional categories of the GO (Gene Ontology) classification, the terms related to physiological process, cellular process, binding, catalytic activity and cellular components were dominant. The next abundant terms were for organelle, protein complex, transporter activity and structural molecule activity. In addition, there were a significant proportion of the terms involved in stimulus response, gene expression regulation, regulation of physiological and biochemical processes and signal transduction. Many of the annotated Unigenes were found to be related to plant resistance to abiotic stresses, and expression analyses of 6 out of these genes by semi-quantitive RT-PCR confirmed their involvements in the response of A. mongolicus to drought stress. These results laid a foundation for the expression profile analysis and the cloning and characterization of drought-resistant genes from the plant in the future.
Droughts ; Fabaceae ; genetics ; Gene Expression Regulation, Plant ; Gene Library ; Genotype ; Sequence Analysis, DNA ; Stress, Physiological ; genetics

To study the molecular mechanism of salt stress response of peanut small GTP binding protein gene AhRabG3f, a 1 914 bp promoter fragment upstream of the start codon of AhRabG3f gene (3f-P) from peanut was cloned. Subsequently, five truncated fragments (3f-P1-3f-P5) with lengths of 1 729, 1 379, 666, 510 and 179 bp were obtained through deletion at the 5' end, respectively. Plant expression vectors where these six promoter fragments were fused with the gus gene were constructed and transformed into tobacco by Agrobacterium-mediated method, respectively. GUS expression in transgenic tobacco and activity analysis were conducted. The gus gene expression can be detected in the transgenic tobacco harboring each promoter segment, among which the driving activity of the full-length promoter 3f-P was the weakest, while the driving activity of the promoter segment 3f-P3 was the strongest. Upon exposure of the transgenic tobacco to salt stress, the GUS activity driven by 3f-P, 3f-P1, 3f-P2 and 3f-P3 was 3.3, 1.2, 1.9 and 1.2 times compared to that of the transgenic plants without salt treatment. This suggests that the AhRabG3f promoter was salt-inducible and there might be positive regulatory elements between 3f-P and 3f-P3 in response to salt stress. The results of GUS activity driven by promoter fragments after salt treatment showed that elements included MYB and GT1 between 1 930 bp and 1 745 bp. Moreover, a TC-rich repeat between 682 bp and 526 bp might be positive cis-elements responsible for salt stress, and an MYC element between 1 395 bp and 682 bp might be a negative cis-element responsible for salt stress. This study may facilitate using the induced promoter to regulate the salt resistance of peanut.
Arachis/genetics* ; Fabaceae/genetics* ; GTP-Binding Proteins/metabolism* ; Gene Expression Regulation, Plant ; Glucuronidase/metabolism* ; Plant Proteins/metabolism* ; Plants, Genetically Modified/genetics* ; Salt Stress ; Stress, Physiological/genetics* ; Tobacco/genetics*

Astragalus membranaceus var. mongholicus and Hedysarum polybotrys belong to different genera, but have similar drug efficacy in traditional Chinese medicine theory, and H. polybotrys was used as the legal A. membranaceus var. mongholicus previously. In this study, similarities and differences between them were analyzed via their ITS/ITS2 fragments information. The ITS (internal transcribed spacer) regions were amplified using polymerase chain reaction and then sequenced in two-way. The alignment lengths of ITS regions were 616 bp, in which 508 loci were consistent, and 103 loci were different, accounting for 82.47% and 16.72% of the total ITS nucleotides in length, respectively. As genotype determines phenotype, 1HNMR-based metabolomic approach was further used to reveal the chemical similarities and differences between them. Thirty-four metabolites were identified in the 1H NMR spectra, and twenty-seven metabolites were the common components. Amino acids, carbohydrates and other primary metabolites were similar, while a large difference existed in the flavonoids and astragalosides. This study suggests that A. membranaceus var. mongholicus and H. polybotrys show similarities and differences from molecular and chemical perspectives, which has laid a foundation for elucidating the effective material basis of drug with similar efficacy and resources utilization.
Astragalus membranaceus ; chemistry ; genetics ; DNA, Plant ; genetics ; DNA, Ribosomal Spacer ; genetics ; Drugs, Chinese Herbal ; chemistry ; Fabaceae ; chemistry ; genetics ; Flavonoids ; chemistry ; Metabolome ; Metabolomics

An efficient system of genetic transformation and plant regeneration via somatic embryogenesis was established in crownvetch (Coronilla varia L.) by infecting the segments of cotyledons and hypocotyls of 15d-old seedlings with Agrobacterium rhizogenes strain 15834. Hairy roots were produced directly from the wounded surface of the explants or via calluses on hormone-free Murashige and Skoog (MS) medium after infection by A. rhizogenes. Transformed roots grew rapidly either on solid or liquid MS medium, and exhibited typical hairy root phenotypes. The highest transformation frequency (87.4%) was achieved by preculturing cotyledons for 2d and pre-treating the A. rhizogenes with suitable concentration of acetosyringone at logarithmic phase (OD600 = 0.8). The embryogenic calluses with 100% induction frequency were induced from hairy roots on MS medium containing 0.2mg/L 2,4-D, 0.5mg/L NAA and 0.5mg/L KT. Globular-, heart-, torpedo-, and cotyledon shaped somatic embryos were produced orderly and developed into plantlets when transferred the embryogenic calluses on MS medium supplemented with 0.5mg/L KT, 0.2mg/L IBA and 300mg/L proline. The transformed plants did not show differences in morphology except abundant lateral root branches compared to the non-transformed plants. However, the contents of 3-nitropropanic acid in hairy roots and leaves of one of 5 transformed clones were 57.68% and 58.17% in roots and leaves of untransformed plants, respectively. Opine paper electrophoresis revealed the integration and expression of TR-DNA. PCR analysis confirmed that the TL-DNA including 654 bp rol B sequence was inserted into the genome of transformed hairy roots and their regenerated plants.
Fabaceae ; genetics ; growth & development ; physiology ; Plant Roots ; genetics ; growth & development ; physiology ; Plants, Genetically Modified ; genetics ; growth & development ; Regeneration ; Rhizobium ; genetics ; Tissue Culture Techniques ; Transformation, Genetic

Dehydration-responsive element binding proteins (DREBs) are an important class of transcription factors related to plant stress tolerance. Ammopiptanthus mongolicus is an evergreen broadleaf shrub endemic to desert areas of northwest China, and it has a very high tolerance to harsh environments. In order to reveal the functions and mechanisms of the AmDREB1F gene from this species in enduring abiotic stresses, we performed subcellular localization test, expression pattern analysis, and stress tolerance evaluation of transgenic Arabidopsis harboring this gene. The protein encoded by AmDREB1F was localized in the nucleus. In laboratory-cultured A. mongolicus seedlings, the expression of AmDREB1F was induced significantly by cold and drought but very slightly by salt and heat stresses, and undetectable upon ABA treatment. In leaves of naturally growing shrubs in the wild, the expression levels of the AmDREB1F gene were much higher during the late autumn, winter and early spring than in other seasons. Moreover, the expression was abundant in roots and immature pods rather than other organs of the shrubs. Constitutive expression of AmDREB1F in Arabidopsis induced the expression of several DREB-regulated stress-responsive genes and improved the tolerance of transgenic lines to drought, high salinity and low temperature as well as oxidative stress. The constitutive expression also caused growth retardation of the transgenics, which could be eliminated by the application of gibberellin 3. Stress-inducible expression of AmDREB1F also enhanced the tolerance of transgenic Arabidopsis to all of the four stresses mentioned above, without affecting its growth and development. These results suggest that AmDREB1F gene may play positive regulatory roles in response to abiotic stresses through the ABA-independent signaling pathways.
Arabidopsis/metabolism* ; Droughts ; Ectopic Gene Expression ; Fabaceae/genetics* ; Gene Expression Regulation, Plant ; Plant Proteins/metabolism* ; Plants, Genetically Modified/genetics* ; Stress, Physiological/genetics*

OBJECTIVETo compare the ileal digestibility of protein and amino acids in parental rice and rice genetically modified with sck gene.

METHODSSix experimental swines were surgically fixed with a simple T-cannula at the terminal ileum and fed with parental rice and rice genetically modified with sck gene alternately. The ileum digesta were collected and analyzed for determination of apparent and true digestibility of protein and amino acids.

RESULTSThe apparent and true digestibility of protein was similar in these two types of rice. Except for the apparent digestibility of lysine, there was no difference in the apparent and true digestibility of the other 17 amino acids.

CONCLUSIONThe digestibility of protein and amino acids is not changed by the insertion of foreign gene, so it can meet the request of "substantial equivalence" in digestibility of protein and amino acids.

Amino Acids ; metabolism ; Animals ; Digestion ; Fabaceae ; Ileum ; metabolism ; Male ; Oryza ; genetics ; Phytic Acid ; metabolism ; Plants, Genetically Modified ; Proteins ; metabolism ; Swine ; metabolism ; Trypsin Inhibitors ; genetics

We report the recovery of a 7068-nt viral sequence from the "viral fossils" embedded in the genome of Alhagi sparsifolia, a typical desert plant. Although the full viral genome remains to be completed, the putative genome structure, the deduced amino acids and phylogenetic analysis unambiguously demonstrate that this viral sequence represents a novel species of the genus Badnavirus. The putative virus is tentatively termed Alhagi bacilliform virus (ABV). Southern blotting and inverse polymerase chain reaction (PCR) data indicate that the ABV-related sequence is integrated into the A. sparsifolia genome, and probably does not give rise to functional episomal virus. Molecular evidence that the ABV sequence exists widely in A. sparsifolia is also presented. To our knowledge, this is the first endogenous badnavirus identified from plants in the Gobi desert, and may provide new clues on the evolution, geographical distribution as well as the host range of the badnaviruses.
Badnavirus/genetics* ; Biological Evolution ; Desert Climate ; Fabaceae/virology* ; Genes, Plant ; Genetic Variation ; Genome, Viral ; Geography ; Open Reading Frames ; Phylogeny ; Plant Diseases/virology* ; Plasmids ; Sequence Analysis, RNA