Genomic-wide identification and expression analysis of R2R3-MYB transcription factors related to flavonol biosynthesis in Morinda officinalis.

BACKGROUND: The R2R3-MYB transcription factors are a crucial and extensive gene family in plants, which participate in diverse processes, including development, metabolism, defense, differentiation, and stress response. In the Lingnan region of China, Morinda officinalis is extensively grown and is renowned for its use as both a medicinal herb and food source. However, there are relatively few reports on the R2R3-MYB transcription factor family in M.officinalis. RESULTS: In this study, we identified 97 R2R3-MYB genes in the genome of Morinda officinalis and classified them into 32 subgroups based on phylogenetic comparison with Arabidopsis thaliana. The lack of recent whole-genome duplication events in M.officinalis may be the reason for the relatively few members of the R2R3-MYB family. We also further analyzed the physical and chemical characteristics, conserved motifs, gene structure, and chromosomal location. Gene duplication events found 21 fragment duplication pairs and five tandem duplication event R2R3-MYB genes in M.officinalis may also affect gene family expansion. Based on phylogenetic analysis, cis-element analysis, co-expression analysis and RT-qPCR, we concluded that MoMYB33 might modulate flavonol levels by regulating the expression of 4-coumarate-CoA ligase Mo4CL2, chalcone isomerase MoCHI3, and flavonol synthase MoFLS4/11/12. MoMYB33 and AtMYB111 showed the highest similarity of 79% and may be involved in flavonol synthase networks by the STRING database. Moreover, we also identified MoMYB genes that respond to methyl Jasmonate (MeJA) and abscisic acid (ABA) stress by RT-qPCR. CONCLUSIONS: This study offers a thorough comprehension of R2R3-MYB in M.officinalis, which lays the foundation for the regulation of flavonol synthesis and the response of MoMYB genes to phytohormones in M.officinalis.

Molecular marker-based genetic diversity analysis of scantly studied Brazilian accessions of a medicinal plant, Morinda citrifolia L. (noni).

Morinda citrifolia L., commonly known as noni, has been used for the treatment of various diseases for over two centuries. It was introduced and widely disseminated in Brazil because of its high market value and ease of adaptation to the soil and climatic conditions of the country. The aim of this study was to estimate the genetic variability of noni accessions from the collection of Embrapa Agroindústria Tropical in Brazil. We evaluated 36 plants of the 13 accessions of noni from the germplasm collection of M. citrifolia. Several methods of DNA extraction were tested. After definition of the method, the DNA of each sample was subjected to polymerase chain reactions using 20 random amplified polymorphic DNA primers. The band patterns on agarose gel were converted into a binary data matrix, which was used to estimate the genetic distances between the plants and to perform the cluster analyses. Of the total number of markers used in this study, 125 (81.1%) were polymorphic. The genetic distances between the genotypes ranged from 0.04 to 0.49. Regardless of the high number of polymorphic bands, the genetic variability of the noni plants evaluated was low since most of the genotypes belonged to the same cluster as shown by the dendrogram and Tocher's cluster analysis. The low genetic diversity among the studied noni individuals indicates that additional variability should be introduced in the germplasm collection of noni by gathering new individuals and/or by hybridizing contrasting individuals.

The complete chloroplast genome sequence of the medicinal plant Morinda officinalis (Rubiaceae), an endemic to China.

The complete chloroplast genome of Morinda officinalis, an endangered and important Chinese medicine with great economic value, has been sequenced in this article. The genome size is 153 398 bp in length, with 38.05% GC content. A pair of inverted repeats (IRs, 51 834 bp) are separated by a large single copy region (LSC, 83 996 bp) and a small single copy region (SSC, 17 566 bp). The chloroplast genome contains 103 unique genes, 80 protein-coding genes, 19 tRNA genes, and 4 rRNA genes. In these genes, 8 genes contained 1 intron, and 2 genes comprised of 2 introns.

Transformation of Morinda citrifolia via simple mature seed imbibition method.

Morinda citrifolia, is a valuable medicinal plant with a wide range of therapeutic properties and extensive transformation study on this plant has yet been known. Present study was conducted to establish a simple and reliable transformation protocol for M. citrifolia utilising Agrobacterium tumefaciens via direct seed exposure. In this study, the seeds were processed by tips clipping and dried and subsequently incubated in inoculation medium. Four different parameters during the incubation such as incubation period, bacterial density, temperature and binary vectors harbouring beta-glucuronidase (GUS) gene (pBI121 and pGSA1131), were tested to examine its effect on transformation efficiency. The leaves from the treated and germinated seedlings were analysed via Polymerase Chain Reaction (PCR), histochemical assay of the GUS gene and reverse transcription-PCR (RT-PCR). Results of the study showed that Agrobacterium strain LBA4404 with optical density of 1.0 and 2 h incubation period were optimum for M. citrifolia transformation. It was found that various co-cultivation temperatures tested and type of vector used did not affect the transformation efficiency. The highest transformation efficiency for M. citrifolia direct seed transformation harbouring pBI121 and pGSA1131 was determined to be 96.8% with 2 h co-cultivation treatment and 80.4% when using bacterial density of 1.0, respectively. The transformation method can be applied for future characterization study of M. citrifolia.

[Tissue culture and polyploidy induction of Morinda officinalis].

OBJECTIVE: To establish an effective protocol for plant generation and induce polyploidy of Morinda offcinalis. METHOD: Callus was induced from immature embryo of M. officinalis and polyploidy was inducted by using colchicine treatment method. Chromosome was detected by flow cytometry. RESULT AND CONCLUSION: The highest induction rate of polyploidy was 18.40%, which was obtained with 500 mg x L(-1) colchicine treatment for 5 days. Roots of polyploid were bigger than diploid. Advantages of using immature embryo as explants are easy for sterilization, higher rate of callus induction and low degree dedifferentiation. The induced polyploidy of M. officinalis may have a value for spread of cultivation.

Mutagenic screening of some commonly used medicinal plants in Nigeria.

The uses of medicinal plants have always been part of human culture. The World Health Organization estimates that up to 80% of the world's population relies on traditional medicinal system for some aspect of primary health care. However, there are few reports on the toxicological properties of most medicinal plants especially, their mutagenicity and carcinogenicity. Therefore, this research is to determine the mutagenic potentials of Morinda lucida [Oruwo (Root)], Azadirachta indica [Dongoyaro (Leaf)], Terapluera tetraptera [Aridan (Fruit)], Plumbago zeylanica [Inabiri (Root)], Xylopia aethiopica [Erunje (Fruit)], Newbouldia laevis [Akoko (Leaf)], Alstonia boonei [Ahun (Bark)], Enantia chlorantha [Awopa (Bark)], and Rauvolfia vomitoria [Asofeyeje (Root)] using the Allium cepa Linn. model and the modified Ames assay. Allium cepa model was used to determine the mean root length, mitotic index and chromosomal aberrations effects of these plants on onion bulbs using 0.1, 1, 5 and 10mg/ml concentration of the plant extracts. The modified Ames test which is a modification of the standard Ames test as described by Ames et al. [Ames, B.N., McCann, J., Yamasaki, E., 1975. Methods for detecting carcinogens and mutagens with the Salmonella/mammalian microsome mutagenicity test. Mutation Research 31, 347-364] was done using Escherichia coli (0157:H7) that has the phenotypic characteristics of glucose and lactose fermentation, motile, urease negative, indole positive and citrate negative. The results obtained from Allium cepa assay showed increasing root growth inhibition with increased concentration, decreasing mitotic index with increased concentration and chromosomal aberrations. The modified Ames test showed an alteration in the biochemical characteristics of Escherichia coli (0157:H7) for all plants except Rauvolfia vomitoria and Plumbago zeylanica. Three of the medicinal plants altered at least three of the normal biochemical characteristics thus demonstrating mutagenic potentials. The results of internationally accepted Allium cepa were comparable with the modified Ames test. However, a long term in vivo and dose dependent study should be carried out to validate these results and the findings should be communicated to drug and food regulatory body and also to the general public.

[RAPD analysis on germplasm resources of different farm races of Morinda officinalis].

OBJECTIVE: To explore the genetic diversity of different farm races of Morinda officinalis on molecular level. METHODS: The molecular biological technique-random amplified polymorphic DNA (RAPD) were used. RESULTS: Of the 40-mer arbitary primers, 14 were found to amplify polymorphic products. 3-5 polymorphic bands were amplified by each polymorphic primer on the average. Using UPGMA method all the tested accesions can be clustered into two groups: 4 accessions of Daye were classified as one group, 1 accession of Xiaoye be another group. CONCLUSION: There actually existed much genetic diversity on molecular level among the different farm races of Morinda officinalis.

[In vitro culture and the Agrobacterium-mediated genetic transformation of Morinda officinalis].

OBJECTIVE: To establish an effective system for the Agrobacterium-mediated genetic transformation of M. officinalis, for laying a foundation for the improvement of breeds and introduction of foreign objective genes. METHOD: The explants used for culture were the nodular stem segments from M. officinalis. Agrobacterium tumefaciens strain was EHA101, containing vector plasmid pGA482GG. The GUS gene and NPT II gene were introduced into the plasmid. RESULT: MT basal medium with BA 1 mg.L-1 was effective to inducing the direct shoot formation, and the frequency of shoot formation was 97.8%. As BA concentrations increased, the ability of shoot formation decreased. The explants oriented with their apical ends protruding from the medium produced more shoots than when they were placed with their basal end upright or were placed horizontally. The optimal rooting medium for regenerating shoots was MT basal medium supplemented with 0.2 to 0.5 mg.L-1 NAA, and a root induction rate over 80.0% was observed. The selection pressure for kanamycin was 50 mg.L-1. Cefotaxime was used as antibiotics, and the concentration was 300 mg.L-1. After 1.5 months, 14.8% resistant shoots were emerged from the explants. Histochemical GUS assay showed that 22.2% of the resistant plants were GUS-positive. CONCLUSION: Plant regeneration system and Agrobacterium-mediated genetic transformation have been established for M. officinalis in vitro.