Agrobacterium tumefaciens-mediated transformation of leek (Allium porrum) and garlic (Allium sativum)

Transgenic leek (Allium porrum) and garlic (Allium sativum) plants have been recovered by the selective culturing of immature leek and garlic embryos via Agrobacterium-mediated transformation using a method similar to that described by Eady et al. (Plant Cell Rep 19:376–381, 2000) for onion transformation. This method involved the use of a binary vector containing the m-gfp-ER reporter gene and nptII selectable marker, and followed the protocol developed previously for the transformation of onions with only minor modifications pertaining to the post-transformation selection procedure which was simplified to have just a single selection regime. Transgenic cultures were selected for their ability to express the m-gfp-ER reporter gene and grown in the presence of geneticin (20 mg/l). The presence of transgenes in the genome of the plants was confirmed using TAIL-PCR and Southern analysis. This is the first report of leek and true seed garlic transformation. It now makes possible the integration of useful agronomic and quality traits into these crops.     

Comparison of survey methods for an invasive plant at the subwatershed level

Invasive plant survey methods that are practical and economical are needed to describe established colonies and detect nascent invaders. We compared results from random and roadside surveys of Alliaria petiolata (Bieb.) Cavara & Grande across a 5730-ha subwatershed. The random survey included 150 1-ha plots; the roadside survey examined 0.1-mile increments (10-m deep) along paved roads (totaling 1104 0.16-ha plots). In the random survey, agriculture was the dominant land use (49% of sampled area), and most A. petiolata patches were in wooded, shaded riparian, and waste areas (34%, 34%, and 29% of patches, respectively). In the roadside survey, right-of-way land use was dominant (38% of sampled area), and most A. petiolata patches were in right-of-way, wooded, and shaded riparian areas (53%, 22%, and 19% of patches, respectively). According to generalized linear model analysis, survey methods did not differ in the overall probability of finding A. petiolata (P=0.17 and 0.11 for random and roadside surveys, respectively). Shaded riparian, wooded, and mixed-species right-of-way land uses were the dominant habitat for A. petiolata in both surveys, but only the random survey indicated waste areas as significant habitat. Alliaria petiolata occurred mostly as small patches in roadsides, but as large patches in random plots, suggesting faster spread in the roadside. Results indicated that disturbed lands along roadsides were important for invasion and spread of A. petiolata; therefore, the roadside survey was a useful, practical method for detecting nascent invasions and management planning. The random sampling lacked a land use bias, and provided data that could be generalized across the subwatershed; however, this method required at least four times more person hours to complete than the roadside survey for a similar amount of area. Although roadside sampling did not provide a completely reliable assessment of target plant populations within the landscape, it may provide an adequate approximation, depending on the specific goals of the survey. Concurrent surveys would provide the most complete information.     

Modelling the relationship between purple blotch and yield loss in garlic and effect of leaf damage on bulb yield

An AUDPC model was developed to describe the relationship between Alternaria porri infection and yield loss in garlic. Percentage yield loss was regressed against AUDPC and gave an acceptable fit to a linear model with an intercept of -0.35, a slope of 0.09 and R²= 0.85 during 1990–91 and an intercept of 1.91, a slope of 0.08 and R²= 0.87 during 1991–92. The effect of various levels of leaf damage on garlic bulb yield was also studied to simulate damage caused by A. porri. Significant yield reduction by 25% defoliation at 5 wk, 50% defoliation at 4 wk and 75% defoliation at 3 wk before bulb maturity were recorded. No significant yield reduction from 2 wk before bulb maturity could, however, be noticed even at the highest levels of leaf damage. Linear regression models were fitted for predicting yield at various levels of defoliation at different weeks before bulb maturity. These models can be used to describe the consequences of disease epidemics, projecting possible losses during the season and justifying the need for chemical disease control.     

Comparative study of the post-translational processing of the mannose-binding lectins in the bulbs of garlic (Allium sativum L.) and ramsons (Allium ursinum L.)

The biosynthesis and processing of the homodimeric and heterodimeric lectins from the bulbs of garlic (Allium sativum) and ramsons (wild garlic;Allium ursinum) were studied using pulse and pulse-chase labelling experiments on developing bulbs. By combining the results of thein vivo biosynthesis studies and the cDNA cloning of the respective lectins, the sequence of events leading from the primary translation products into the mature lectin polypeptides could be reconstructed. From this it is demonstrated that garlic and ramsons use different schemes of post-translational modifications in order to synthesize apparently similar lectins from totally different precursors. Both the homomeric garlic lectin (ASAII) and its homologue in ramsons (AUAII) are synthesized on the endoplasmic reticulum (ER) as nonglycosylated 13.5 kDa precursors, which, after their transport out of the ER are converted into the mature 12.0 kDa lectin polypeptides by the cleavage of a C-terminal peptide. The heterodimeric garlic lectin ASAI is synthesized on the ER as a single glycosylated precursor of 38 kDa, which after its transport out of the ER undergoes a complex processing which gives rise to two mature lectin subunits of 11.5 and 12.5 kDa. In contrast, both subunits of the heterodimeric ramsons lectin AUAI are synthesized separately on the ER as glycosylated precursors, which after their transport out of the ER are deglycosylated and further processed into the mature lectin polypeptides by the cleavage of a C-terminal peptide.     

Garlic attenuates histological and histochemical alterations in livers of Schistosoma mansoni infected mice

Interest in screening for new anti-schistosomal agents is growing because of increased concerns about resistance to and safety of praziquantel. We investigated the anti-schistosomal action of prophylactic and therapeutic doses of garlic on the histological and histochemical alterations caused by Schistosoma mansoni infection. Livers of infected mice were characterized by granulomas, periportal inflammation and fibrosis, hepatocyte vacuolation, fatty degeneration and necrosis, and hypertrophy and pigmentation of Kupffer cells. Significant depletion of carbohydrates and increased lipid vacuoles also were observed. All garlic regimens caused suppression of granuloma formation and amelioration of histological and histochemical changes; the continuous treatment protocol produced the best results. Garlic appears to be a safe and economical anti-schistosomal adjuvant for attenuating the pathogenicity of schistosomiasis.     

大蒜根系分泌物对不同受体蔬菜的化感作用

利用组织培养技术,在无菌条件下研究大蒜根系分泌物对莴苣、辣椒、萝卜、黄瓜、白菜和番茄等蔬菜作物的化感作用.结果表明：大蒜根系分泌物对6种蔬菜作物的发芽率、发芽指数、苗高及保护酶活性没有影响;对根长、地上部鲜质量及根鲜质量略有促进作用,其中,莴苣与对照差异达显著水平,化感效应指数分别为+0.163、+0.106、+0.318,白菜根长与对照差异达显著水平,化感效应指数为+0.120,其它受试作物与对照差异均未达显著水平;大蒜根系分泌物对受试作物叶绿素含量及根系活力有促进作用,与对照差异达显著水平,对萝卜的叶绿素含量促进作用最强,化感效应指数为+0.282,对黄瓜的根系活力促进作用最强,化感效应指数为+0.184;大蒜根系分泌物使受试作物对养分的吸收能力有所提高.     

Effects of garlic oil on tumoragenecity and intercellular communication in human gastric cancer cell line

Previous studies have demonstrated that garlic oil (GO) and its anti-tumor compound could inhibit DNA and RNA synthesis in human cancer cells. In order to explore the effects of garlic oil on carcinoma cells, a gastric carcinoma cell line, BGC-823 was studied at cellular and molecular levels after garlic oil treatment. Data showed that the cell differentiation and suppression of tumorigenicity were significantly induced in tumor cells after garlic oil treatment. There was a correlation between the cell-cell communication recovery and the increase of p53 and waf1/p21 gene expression in garlic oil-treated cells. This result suggested that tumor suppressor gene waf1/p21 and wt p53 might play an important role in this effect.     

Molecular Characterization of 16S Ribosomal DNA and Phylogenetic Analysis of Two X-disease Group Phytoplasmas Affecting China-tree (Melia azedarach L.) and Garlic (Allium sativum L.) in Argentina

Two phytoplasmas closely related to the X‐disease group were associated with China‐tree (Melia azedarach L.) and garlic (Allium sativum L.) decline diseases in Argentina. The present work was aimed at studying their phylogenetic relationship based on molecular characterization of the 16S ribosomal DNA sequences. Phytoplasma DNAs were obtained from naturally infected China‐tree and garlic plants from different geographical isolates. The results from analysis of restriction fragment length polymorphisms and nucleotide sequences of the 16S rDNA showed the affiliation of China‐tree and garlic decline phytoplasmas to the 16SrIII (X‐disease group), subgroups B and J, respectively. Both organisms had high sequence similarities in the 16SrDNA nucleotide sequence with the Chayote witches’ broom phytoplasma from Brazil. The phylogenetic tree, constructed by parsimony analysis, grouped the Garlic decline, China‐tree decline, Chayote witches’ broom and Clover yellow edge phytoplasmas into a cluster separated from the other phytoplasmas of the X‐disease group.     

Population dynamics of the citrus nematode,Tylenchulus semipenetrans,on navel orange as affected by some plant residues,an organic manure and a biocide

The population dynamics of the citrus nematode, Tylenchulus semipenetrans, on navel orange trees was studied from January 2012 to September 2012. The highest population of the citrus nematode appeared in May 2012 in the soil of navel orange trees, and the highest nematode population in roots appeared in August in the same year. Control of the citrus nematode by using smashed garlic cloves, powders of olive leaves and orange peels, an organic manure, chicken litter, either alone or in combination with a biocide, and sincocin compared to two nematicides, fenamiphos 10%G and oxamyl 24%L, was carried out in April 2012 .The best results for controlling the citrus nematode were obtained four months after the addition of the tested materials in soil; the highest nematode percentages reduction obtained were 90.9%, for smashed garlic cloves, and 72.8%, for chicken litter. On roots, the best results were 92.3% for garlic cloves and 92.0% for oxamyl, one month after application. The concomitant treatments of sincocin plus garlic clove or sicocin plus chicken litter were most effective in managing T. semipenetrans on navel orange trees after four and five months of application.     

Light and electron microscopic immunocytochemical localization of two major proteins in garlic bulb

Garlic is known as a potent spice and a medicine with broad therapeutic properties ranging from antibacterial to anticancer, antidiabetic, and anticoagulant. Two major proteins of 40 KD and 14 KD constituting approximately 96% of total garlic proteins have been recently purified at our Institute. This immunocytochemical and ultrastructural study revealed that the 40 KD protein was localized in the parenchyma sheath cells (PSC) of garlic bulbs, whereas the 14 KD protein was present in the cortical cells (CC). Immunogold electron microscopy study indicated that the 40 KD protein was specifically localized in the globular granules of the cytoplasmic area of PSC. Each globular granule was amorphous and homogenous with membrane limiting its outermost layer. The yellowish color of PSC in freshly cut slices of garlic bulb suggested that PSC may have sulfur-containing compounds such as allicin, the primary contributor of the pungency and medicinal properties of garlic. Ellman's reagent test quantitatively revealed that there were 17.8 n moles sulfhydryl (SH)/ml of 40 KD garlic protein. Microtubule tubulin in mitotic figures from PHA-stimulated human short-term whole blood cultures reacted strongly with antitubulin antibody but reacted negatively with anti-40 KD garlic protein antibodies and therefore was not related to the 40 KD garlic protein immunocytochemically.