SEM studies on the leaf surface of promising mulberry (Morus spp.) genotypes

Mulberry (Moms spp.) leaf quality has a great role in silkworm rearing which in turn affects the overall silk yield. In the recent past, many varieties of mulberry have been evolved considering the morphological characters, growth, yield, and quality parameters based on bioassay. The present investigation was carried out on ten promising mulberry genotypesviz. Tr-10, K-2, S-36, S-54, S-1, V-1, Mysore local, S-13, S-34, and RFS-135 to characterize stomatal size and frequency, trichomes and idioblasts using SEM. These new parameters will provide useful information for cultivars identification as well as for selecting mulberry genotypes adapted to different eco-climatic conditions and assessing the feeding quality of leaf for silkworm rearing.     

In vitro screening of some plant extracts against fungal pathogens of mulberry ( Morus spp.)

Twenty one plant species were screened in vitro for their fungitoxic properties against four fungal pathogens viz., Phyllactinia corylea (Powdery mildew), Peridiopsora mori (Brown rust) and Pseudocercospora mori (Black leaf spot) by slide germination method and Myrothecium roridum (Brown leaf spot) by poisoned food technique. Conidial germination of P. corylea was significantly reduced in 5% (w/v) ethanolic extracts all tested plant. Extract of Cassia tora and Cassia sophera completely inhibited conidial germination of P. corylea. Other effective plant extracts inhibited >?90% germination were Allium sativum (99.56%), Ocimum sanctum (97.80%), Moringa oleifera (97.32%). Conidial germination of Pseudocercospora mori was completely inhibited in extract of A. sativum and D. metel. More than 90% inhibition was observed with extract of Holarrhena antidysentrica (93.10%), Adhatoda Zeylanica (91.40%) and Calotropis gigentia (90.40%). Urediniospore germination of Peridiopsora mori was significantly reduced in 19 plant extracts. Extract of A. sativum and D. metel completely inhibited urediniospore germination P. mori. Other effective plant extracts, which inhibited >?90% germination were Calotropis gigentia (99.40%), Targets patula (98.96%), Azadirachta indica (98.85%), Mirabilis jalapa (95.50%) and Chromoleana odorata (90.51%). Maximum inhibition (33.33%) of colony growth of M. roridum was observed with amendment of 5% solvent extracts of D. metel followed by A. sativum (25%), Chromoleana odorata (20%) and Eucalyptus citriodora (16.66%).     

Genetic relationships of Japanese and Indian mulberry (Morus spp.) genotypes revealed by DNA fingerprinting

Mulberry (Morus spp.), a deciduous tree, originated at the foothills of the Himalayas and is used in sericulture for its leaf to feed the silkworm Bombyx mori L. Species differentiation among the genotypes of the genus Morus has never been out of debate as inter-specific hybridization events are often fertile. In the present study attempts were made to elucidate the genetic relationships among 18 mulberry genotypes collected from India and Japan using 15 Inter Simple Sequence Repeat (ISSR) and 15 Random Amplified Polymorphic DNA (RAPD) primers. The ISSR primers generated 81.13% polymorphism while the RAPDs generated 71.78% polymorphism. The polymorphic index of the primers identified UBC-812, UBC-826, UBC827, UBC-881, OPA-01, OPA-02, OPA-04 and OPH-17 as informative primers in mulberry. The genetic similarity coefficients and the dendrograms showed considerable genetic similarity among the genotypes. However, using the DNA markers, these genotypes were discriminated into two major groups in accordance with their geographic origin and species status. Distribution of the genotypes on a two-dimensional figure on the basis of the ALSCAL algorithm using Euclidean distance further confirmed the genetic divergence between these two groups. From the study it can be concluded that though morphologically Japanese and Indian mulberry genotypes show little divergence, genetic analysis using DNA markers could unravel significant genetic variation between these two groups. Similarly, while the species status of Japanese mulberry genotypes agrees with the genetic analysis, the same does not apply to Indian genotypes, in agreement with many earlier reports. The information generated in this study is of much use for taxonomical grouping and also for utilization in breeding and conservation programs.     

Phytostilbenoid production in white mulberry (Morus alba L.) cell culture using bioreactors and simple deglycosylation by endogenous enzymatic hydrolysis

Phytostilbenes are responsible for several biological activities of mulberry (Morus sp.), which has been widely used as a raw material in health products. This study aimed to investigate the capability of Morus alba L. cell in bioreactors to produce the major bioactive stilbenes. The cell obtained from air-driven bioreactors such as round bottom, flat bottom, and air-lift vessel shape bioreactors was collected and analyzed for the levels of mulberroside A and oxyresveratrol. The results showed that the cell culture in round bottom and air-lift vessel bioreactors had higher growth rate, as compared with the cell culture in shake flasks (1.38- and 1.41-fold, respectively). The optimized culture condition to produce mulberroside A was obtained from round bottom bioreactor culture (55.56 ± 11.41 μmol/L). Additionally, endogenous stilbenoid hydrolysis of cell from the bioreactor culture was examined. Under optimized hydrolytic conditions, mulberroside A in the cell was readily deglycosylated to give oxyresveratrol within 1 h. These results indicated that the glycoside mulberroside A in the cell is sensitive to the endogenous enzymatic hydrolysis. Interaction of the stilbenoid components with the endogenous hydrolytic enzyme triggered by cell disruption in M. alba samples was suggested to be the major cause of the alteration of the stilbenoid levels. These findings have provided a new approach to producing glycosidic compounds and corresponding aglycones in cell culture.

     

A first genetic linkage map of mulberry (Morus spp.) using RAPD, ISSR, and SSR markers and pseudotestcross mapping strategy

To lay the foundation for molecular breeding efforts, the first genetic linkage map of mulberry (2n=2x=28) was constructed with 50 F1 full-sib progeny using randomly amplified polymorphic DNA (RAPD), inter-simple sequence repeat (ISSR), and simple sequence repeat (SSR) markers and two-way pseudotestcross mapping strategy. We selected 100 RAPD, 42 ISSR, and 9 SSR primers that amplified 517 markers, of which 188 (36.36%) showed a test-cross configuration, corresponding to the heterozygous condition in one parent and null in the other. Two separate female and male maps were constructed using 94 each of female- and male-specific testcross markers, containing 12 female linkage groups and 14 male linkage groups. At a minimum logarithm of the odds (LOD) score threshold of 6.0 and at a maximum map distance of 20 cM, the female map covered a 1,196.6-cM distance, with an average distance of 15.75 cM and maximum map distance of 37.9 cM between two loci; the male-specific map covered a 1,351.7-cM distance, with an average distance of 18.78 cM and a maximum map distance between two loci is of 34.7 cM. The markers distributed randomly in all linkage groups without any clustering. All 12 linkage groups in the female-specific map consisted of 4–10 loci ranging in length from 0 to 140.4 cM, and in the male-specific map, the 13 largest linkage groups (except linkage group 12, which contained three loci) consisted of 4–12 loci, ranging in length from 53.9 to 145.9 cM and accounting for 97.22% of the total map distance. When mapping, progeny pass through their juvenile phase and assume their adult characters, mapping morphological markers and identification of quantitative trait loci for adaptive traits will be the primary target. In that sense, our map provides reference information for future molecular breeding work on Morus and its relatives.     

In vitro induction of tetraploidy in mulberry (Morus alba L.)

A high frequency of tetraploidy was induced in mulberry (Morus alba L.) through apical bud treatment under in vitro conditions. Apical buds from in vitro-grown plants were treated with three different concentrations (0.05, 0.1 and 0.2%) of colchicine in MS medium for 24 h. Tetraploidy at a frequency of 39.4±4.8% was obtained using 0.1% colchicine, whereas the frequency of tetraploidy was significantly reduced to 16.7±2.3% when 0.2% colchicine was used. Morphological, histological and cytological evidence indicated a phenotypic and genomic similarity of in vitro- with ex vitro-induced tetraploids. Rooting of tetraploids was on basal medium containing 2.6 μm NAA. The recovery of tetraploids was 80.8% more efficient using the in vitro method instead of the ex vitro method. The use of the same colchicine medium for up to 4 weeks with additional explants was found to be equally effective for the induction of tetraploidy. Received: 6 January 1997 / Revision received: 6 October 1997 / Accepted: 12 December 1997     

Agrobacterium-mediated transient MaFT expression in mulberry (Morus alba L.) leaves

To optimize Agrobacterium-mediated transient transformation assay in mulberry (Morus alba L.), various infiltration methods, Agrobacterium tumefaciens (A. tumefaciens) strains, and bacterial concentrations were tested in mulberry seedlings. Compared with LBA4404, GV3101 harboring pBE2133 plasmids presented stronger GUS signals at 3 days post infiltration using syringe. Recombinant plasmids pBE2133:GFP and pBE2133:GFP:MaFT were successfully constructed. Transient expression of MaFT:GFP protein was found in leaves, petiole (cross section), and shoot apical meristem (SAM) of mulberry according to the GFP signal. Moreover, MaFT:GFP mRNA was also detected in leaves and SAM via RT-PCR and qRT-PCR. An efficient transient transformation system could be achieved in mulberry seedlings by syringe using A. tumefaciens GV3101 at the OD₆₀₀ of 0.5. The movement of MaFT expression from leaves to SAM might trigger the precocious flowering of mulberry.     

Simple and rapid determination of 1-deoxynojirimycin in mulberry leaves

A simple and rapid method for determining 1-deoxynojirimycin (DNJ), a potent glucosidase inhibitor present in mulberry leaves (Morus alba and Morus bombysis), by high performance liquid chromatography coupled to an evaporative light scattering detector (ELSD) has been developed. DNJ was separated from extract of mulberry leaves on TSK gel Amide-80 column, which is a representative column for hydrophilic interaction chromatography. During post column detection, DNJ was detected by ELSD and concurrently identified by mass spectrometry. The detection limit was 100 ng. This method is sufficiently sensitive for determining DNJ in mulberry leaves and other related products.     

Comparative proteomic analysis provides new insights into mulberry dwarf responses in mulberry (Morus alba L.)

Mulberry dwarf (MD) is a serious infectious disease of mulberry caused by phytoplasma. Infection with MD phytoplasma results in stress phenotypes of yellowing, phyllody, stunting, proliferation, and witches' broom. Physiological and biochemical analysis has shown that infection with MD phytoplasma causes an increase in soluble carbohydrate and starch content, and a decrease in the net photosynthesis rate, carboxylation efficiency, and pigment content of leaves. Furthermore, damage to the chloroplast ultrastructure was detected in infected leaves. To better understand the pathogen‐stress response of mulberry (Morus alba L.) to MD phytoplasma, we conducted a comparative proteomic analysis using 2‐DE of infected and healthy leaves. Among 500 protein spots that were reproducibly detected, 20 were down‐regulated and 17 were up‐regulated. MS identified 16 differentially expressed proteins. The photosynthetic proteins rubisco large subunit, rubisco activase, and sedoheptulose‐1,7‐bisphosphatase showed enhanced degradation in infected leaves. Based these results, a model for the occurrence mechanism of MD is proposed. In conclusion, this study provides new insights into the mulberry response to MD phytoplasma infection.     

Genetic variability of mulberry (Morus spp.) germplasm against powdery mildew (Phyllactinia corylea) and identification of high resistance genotypes

The disease response and magnitude of genetic variability of 85 mulberry genotypes of different agroclimatic origin was studied against powdery mildew caused by Phyllactinia corylea. It was observed that there was a wide variation of disease severity among the test genotypes. Australian and France originating genotypes were found to be highly resistant to mildew followed by of Thai and Italian origin. Genotype wise, the lowest mildew disease severity was recorded in Thailand [lobed]) followed by M. malticaulis, M. australis and Italian. Genetic analysis of disease severity revealed that the estimate of phenotypic coefficient of variation (PCV) and genotypic coefficient of variation (GCV) were high and that PCV was greater than GCV. High estimate of heritability coupled with high genetic advance showed that the mildew disease resistant trait is governed by an additive gene action. Hence the highly resistant mulberry genotypes identified may be exploited through hybridisation followed by selection under epiphytotic conditions for the improvement of disease resistant traits in mulberry.     

Genetic variability and association of ISSR markers with some biochemical traits in mulberry (Morus spp.) genetic resources available in India

Utilizing intersimple sequence repeat (ISSR) markers, 18 mulberry (Morus spp.) germplasm collections were studied for genetic variability, phylogenetic relationship, and association with protein and sugar content. The genetic polymorphism exhibited by ISSR primers was 100%, and the genetic diversity recorded among the mulberry accessions had an average of 0.263 ± 0.094. Dendrogram (unweighted pair group method analysis) clustered the mulberry accessions into two major groups, one comprised the accessions collected from north or northeast regions of India, and the other comprised three subclusters and one isolate, i.e., Assamjati, a collection from Assam. Another subcluster contained accessions collected from Kerala, which belong to Morus indica. These accessions of M. indica from Kerala were found to be genetically diverse from north and northeast India. Multidimensional scaling of the ISSR data clearly separated the mulberry accessions according to their genetic diversity and protein content. Mulberry accessions were arbitrarily grouped into three classes viz. very low, moderate, and high in terms of protein and sugar content using standard statistical programs. Stepwise multiple regression analysis identified four ISSR markers (835_1,600, 835_5,600, 822_2,500, and 807_2,500) associated with protein content with highly positive correlation (p < 0.001) with linear curves with high F values (18.055 to 48.674; p < 0.001). In case of sugar content, four ISSR markers viz. 812₉₀₀, 817_1,500, 826_1,500, and 810_8,000 showed negative correlation. Hence, DNA markers for proteins seem promising and may be used in marker-assisted breeding program.     

Stress responses in two genotypes of mulberry (Morus alba L.) under NaCl salinity

Changes in biomass yield rates, cell membrane stability (CMS), malondialdehyde (MDA) content and in the levels of physiological stress markers such as proline and glycine betaine in two high yielding genotypes (S1 and ATP, salt tolerant and salt sensitive, respectively) of mulberry under NaCl salinity were studied. Biomass yield rates and CMS were significantly decreased in both the genotypes under stress conditions. Per cent of decrease in biomass yield rate and CMS was relatively less in S1 than in ATP. Salt stress results a significant increase in the accumulation of proline, by 6-fold in S1 and 4-fold in ATP. Glycine betaine content was also increased significantly in stressed plants. However, the per cent increase was more in S1 than in ATP. The level of lipid peroxidation as indicated by MDA formation was greater in ATP than in S1. These results clearly support the better salt tolerant nature of S1 compared to ATP genotype.     

In vivo growth of encapsulated axillary buds of mulberry (Morus indica L.)

Axillary buds excised from aseptic shoot cultures of mulberry were encapsulated in an alginate matrix under non-aseptic conditions. Addition of a fungicide to the alginate beads prevents contamination of the bud and increased survival of the buds when sown in soil.     

Genetic relationships between selected Turkish mulberry genotypes (Morus spp) based on RAPD markers

Mulberry (Morus spp, Moraceae) is an important horticultural crop in Turkey, which is one of the main world producers of mulberry fruit. We evaluated the genetic relationships among 26 mulberry genotypes selected for agronomic characteristics, using RAPD markers. A total of 367 DNA markers were generated with 34 random primers. The highest genetic similarity (0.80) was observed between Oltu58 (M. nigra) and Olur90 (M. nigra) genotypes. The genotypes Oltu3 (M. alba) and Oltu18 (M. rubra) were the most distant (0.36). We found that the RAPD technique is a useful tool to discriminate mulberry genotypes at both the intra- and interspecific level. This type of information will aid in accurate identification of useful genotypes for breeding programs.     

Trichoderma pseudokoningii for hastening the decomposition of various sericultural wastes and impact of enriched composts on disease suppression in mulberry (Morus spp.)

Abstract

A biofungicide “Nursery-Guard” containing Trichoderma pseudokoningii as a biocontrol agent hastened the decomposition of various sericultural wastes viz., silkworm litter + rearing waste, biogas slurry (a spent slurry from silkworm waste-based biogas plant) and weeds of mulberry gardens. The farm-yard manure (FYM - unfortified) was also enriched with Nursery-Guard for comparison. The decomposition process was very well completed within a period of 105 days. All the decomposed materials had a significantly higher percentage of NPK contents over the check sericultural wastes (non-enriched with Nursery-Guard). A high population of T. pseudokoningii was observed in the compost prepared from biogas slurry when compared to other decomposed materials. The compost enriched with Nursery-Guard had a greater impact on sprouting of mulberry stem-cuttings, survivability of saplings and plant growth. Among the different decomposed materials, the biogas slurry and FYM recorded significantly higher sprouting of cuttings and survivability of saplings. The percentage increase, over the check, in sprouting was 19.3 and 15.7 and survival was 29.4 and 23.5, respectively for both the decomposed materials. The failure of cuttings in nursery was generally observed due to the attack of soilborne diseases viz., stem canker, cutting rot and die-back. The lesser incidence of these diseases was observed in biogas slurry (34.0%), followed by FYM (37.0%), silkworm litter + rearing waste (42.0%) and weeds (46.0%).     

Characterization and correlation of pathogenicity of Botryodiplodia theobromae isolates,the causal agent of black root rot of mulberry (Morus spp.)

Abstract

The study reports the characterization of 10 isolates of mulberry black root rot causing fungus, Botryodiplodia theobromae obtained from the infected gardens of Karnataka, Andhra Pradesh and Tamil Nadu. The analysis based on cultural, morphological, pathogenicity and molecular markers (RAPD and SSRs) revealed significant variations among the isolates. Based on the disease reaction on susceptible V-1 variety, isolates were grouped as pathogenic (60%), moderate pathogenic (20%) and non-pathogenic (20%). Among all isolates, RAPDs revealed higher marker polymorphism however, based on Shannon’s Information Index (I) SSRs were more informative (0.781) compared to the former (0.444). Stepwise Multiple Regression Analysis (MRA) indicated a total of 5, 5 and 3 molecular markers were found to correlate with disease symptoms. Screening of germplasm using multiple strains of virulent isolates will enhance possibilities of locating diverse resistant genes. Pyramiding of these genes will aid in development of mulberry variety with durable resistance and sustainable sericulture.