l-tryptophan-assisted PGPR-mediated induction of drought tolerance in maize (Zea mays L.)

Drought is an important abiotic stress that limits the plant growth and productivity. Present investigation was aimed that plant growth-promoting rhizobacteria (PGPR) isolated from moisture-stressed area impart drought tolerance in plants and tryptophan may improve their efficiency. Pseudomonas sp. (1), Bacillus cereus and Bacillus pumilus (B. pumilus) were isolated from maize rhizosphere grown in irrigated fields, semi-arid region and arid region, respectively. Proteus sp. and Pseudomonas sp. (2) were isolated from rice rhizosphere grown in irrigated fields and raised bed. B. pumilus produced 5× more abscisic acid (ABA) in culture media than Pseudomonas sp. (1) by the addition of l-tryptophan. These inoculants also modulated the phytohormone content of maize leaves in a pot experiment. Higher ABA was produced by the application of B. pumilus and Pseudomonas sp. (2), while indole 3-acetic acid and gibberellic acid were found higher in Pseudomonas sp. (1) and Proteus sp. treated plants. Addition of l-tryptophan increased the concentration of all phytohormones in soil and leaves of maize. Maximum increase in relative water content, osmotic potential, protein content and photosynthetic pigments was recorded in B. pumilus treated maize plants. Under irrigated condition, response of Pseudomonas sp. co-inoculated with B. pumilus from arid field superseded while under drought stress the effect of later predominated. Bacillus pumilus can be used in the formulation of biofertilizer to alleviate drought stress in arid and semi-arid regions.     

Genetic control and racial variation of β-glucosidase isozymes in maize (Zea mays L.)

-Glucosidase (-D-glucoside glucohydrolase, E.C. 3.2.1.21, -Glu) isozyme variants were studied in a large number of inbred lines, crosses, and races of maize (Zea mays L.). The pattern of Mendelian inheritance demonstrated for -GLU variants indicated that they are under nuclear gene control. Twenty-two allelic forms at a single locus were identified in the materials studied by starch gel electrophoresis. Genetic data indicate that -GLU in maize is functionally a dimer. Variation of -GLU isozymes in 51 racial collections of maize from Mexico showed little correlation with morphological or geographical data. In 39 collections from Central America, variation patterns appeared to have some association with altitude.This work was supported in part by NIH Research Grant GM 11546.Paper No. 5040 of the Journal Series of the North Carolina Agricultural Experiment Station, Raleigh, North Carolina.     

In vitro pollination of maize (Zea mays L.) — Proof of double fertilization

Isolated ovules from the maize homozygous recessive brown midrib (bm₃) were in vitro pollinated by pollen carrying the dominant allele — and the purple embryo marker (PEM). The colour characters of the embryos and kernels corresponded to the results of control pollination and confirmed the process of double fertilization. The question whether the method is useful for obtaining haploids is discussed.     

Intracellular immunolocalization of adenosine 5′-diphosphoglucose pyrophosphorylase in developing endosperm cells of maize (Zea mays L.)

We present immuno-electron microscopic evidence to show that ADPglucose pyrophosphorylase (AGP, EC 2.7.7.27) encoded by the Sh2 (shrunken 2) and the Bt2 (brittle 2) genes is localized to amyloplasts in developing endosperm of maize. The three AGP antibodies, including the two maize antisera, each raised against the Sh2encoded large or the Bt2-encoded small subunit and the spinach leaf protein, showed strong immuno-gold signals on developing starch grains in amyloplasts. The maize antibodies, but not the spinach, detected additional cross-reactivity sites to endosperm cell wall. Similar endosperm sections of the sh2-null mutant, lacking the Sh2-encoded subunit, yielded a drastic reduction in immuno signal on both starch grains and cell wall with the Sh2 anti-serum. However, the Bt2 and the spinach antisera showed no detectable difference between the sh2-null and the wild-type genotypes, except that the spinach antisera showed no reactivity to the cell wall in either of the two genotypes. Because the Bt2 epitope was readily detectable on the sh2-null starch grains, we suggest that the Bt2 subunit of this heteromeric enzyme is able to target itself to the organelle. The amyloplastic localization of the AGP protein in our studies is given additional significance by recent molecular data which indicate that full-length cDNA clones of the Sh2 and Bt2 genes show no cleavable transit-peptide signal sequence in their deduced aminoacid sequences. The observed disparity between the molecular and immunocytochemical data described here is discussed in the context of other proteins engaged in intracellular translocation with and without the known signal sequences.     

Optimisation of DNA transfer and transientβ-glucuronidase expression in electroporated maize (Zea mays L.) microspores

Summary The ability to deliver free DNA into microspores of a highly androgenic hybrid of maize was assessed by electroporation, using a square wave pulse discharge apparatus. The electroporation medium was chosen according to its ability to maintain a high level of regeneration. Nuclease activities were analyzed and were inhibited by the addition of 100 mM KNO₃ and MgSO₄ in the electroporation medium. Seven expression vectors withUid A as the reporter gene under the control of cauliflower mosaic virus 35S, Lat 52-7, Zmg 13, Emu, Ubiq-1, Al, or Actl promoters were tested in relation to the level of ß-glucuronidase expression in maize microspores. The highest level of expression was obtained when theUid A gene was driven by the Actl promoter. Therefore, this vector was further used to define optimal conditions leading to highest levels of ß-glucuronidase expression. The parameters determined in this study could provide an ideal starting point for the obtention of transgenic maize plants from electroporated microspores.Abbreviations DH diplohaploid - PEG polyethylene glycol - GUS ß-glucuronidase - EDTA Ethylene-diaminetetra Acetic acid - CaMV Cauliflower mosaic virus     

Two high-density AFLP® linkage maps of Zea mays L.: analysis of distribution of AFLP markers

This study demonstrates the relative ease of generating high-density linkage maps using the AFLP® technology. Two high-density AFLP linkage maps of Zea mays L. were generated based on: (1) a B73 × Mo17 recombinant inbred population and (2) a D32 × D145 immortalized F₂ population. Although AFLP technology is in essence a mono-allelic marker system, markers can be scored quantitatively and used to deduce zygosity. AFLP markers were generated using the enzyme combinations EcoRI/MseI and PstI/MseI. A total of 1539 and 1355 AFLP markers have been mapped in the two populations, respectively. Among the mapped PstI/MseIAFLP markers we have included fragments bounded by a methylated PstI site (^mAFLP markers). Mapping these ^mAFLP markers shows that the presence of C-methylation segregates in perfect accordance with the primary target sequence, leading to Mendelian inheritance. Simultaneous mapping of PstI/MseIAFLP and PstI/MseI ^mAFLP markers allowed us to identify a number of epi-alleles, showing allelic variation in the CpNpG methylation only. However, their frequency in maize is low. Map comparison shows that, despite some rearrangements, most of the AFLP markers that are common in both populations, map at similar positions. This would indicate that AFLP markers are predominantly single-locus markers. Changes in map order occur mainly in marker-dense regions. These marker-dense regions, representing clusters of mainly EcoRI/MseI AFLP and PstI/MseI ^mAFLP markers, co- localize well with the putative centromeric regions of the maize chromosomes. In contrast, PstI/MseImarkers are more uniformly distributed over the genome.     

Plastid targeting of E. coli β-glucuronidase and ADP-glucose pyrophosphorylase in maize (Zea mays L.) cells

Summary Dicot and monocot chloroplast targeting peptides (CTPs) were evaluated for their effect on targeting, processing, and expression of two reporter proteins in maize cells. When tested transiently in maize leaf protoplasts, the maize ribulose bisphosphate carboxylase small subunit CTP required the inclusion of the amino terminus of mature small subunit protein to target -glucuronidase (GUS) to the plastid. To remove this amino terminal extension from GUS after import and processing, a repeat of the native processing site was inserted between the native mature protein and the reporter protein. This repeat processing site was used with less efficiency than the native site. Parallel constructs using the Arabidopsis thaliana small subunit and maize granule-bound starch synthase CTPs also localized GUS, but varied in repeat site use and GUS expression levels. Data from the CTP fusions with GUS were generally confirmed with fusions to an allosteric variant of E. coli ADP-glucose pyrophosphorylase. Plastid targeting of this enzyme was required for starch enhancement of transgenic BMS cells.Abbreviations BMS maize Black Mexican Sweet suspension culture cells - CTP chloroplast targeting peptide - glgC16 an allosteric variant of E. coli ADP-glucose pyrophosphorylase - GUS -glucuronidase - LUX luciferase - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - SSU small subunit of ribulose bisphosphate carboxylase     

Evolution of female sexuality in the maize ear (Zea mays L. subsp.mays—Gramineae)

The discovery of staminodes within the female inflorescences, or “ears,” of some Mexican maize races, and of feminized male inflorescences in annual Mexican teosinte, provides additional support for the theory that the ears of maize evolved from the male primary lateral branch tassels of teosinte by sexual transmutation, and that teosinte is the wild ancestor of maize.     

Measurement of N2 fixation in maize (Zea mays L.)—ricebean (Vigna umbellata [Thunb.] Ohwi and Ohashi) intercrops

The yield of N in maize (Zea mays L.) and ricebean (Vigna umbellata [Thumb.] Ohwi and Ohashi) were compared on a Tropoqualf soil in North Thailand in 1984 and 1985. Both species were grown in field plots in monoculture or as intercrops at a constant planting density equivalent to 8 maize or 16 ricebean plants per m². The contribution of symbiotic N₂ fixation to ricebean growth was estimated from measurements of the natural abundance of¹⁵N (δ¹⁵N) in shoot nitrogen and from analysis of ureides in xylem sap vacuumextracted from detached stems. The natural abundance of¹⁵N in the intercropped ricebean was found to be considerably less than that in monoculture in both growing seasons. Using maize and a weed (Ageratum conyzoides L.) as non-fixing¹⁵N reference plants the proportions (P ¹⁵N) of ricebean shoot N derived from N₂ fixation ranged from 0.27 to 0.36 in monoculture ricebean up to 0.86 when grown in a 75% maize: 25% ricebean intercrop. When glasshouse-derived calibration curves were used to calculate plant proportional N₂ fixation (Pur) from the relative ureide contents of field collected xylem exudates, the contribution of N₂ fixation to ricebean N yields throughout the 1985 growing season were greater in intercrop than in monocrop even at the lowest maize:legume ratio (25∶75). Seasonal patterns of sap ureide abundance indicated that N₂ fixation was greatest at the time of ricebean podset. The averagePur andP ¹⁵N in ricebean during the first 90 days of growth showed identical rankings of monocrop and intercrop treatments in terms of N₂ fixation, although the two sets ofP values were different. Nonetheless, seasonal estimates of N₂ fixation during the entire 147 days of legume growth determined from ureide analyses indicated that equivalent amounts of N could be fixed by ricebean in a 75∶25 intercrop and in monoculture despite the former being planted at one-quarter the density.     

Accumulation of Hydrocarbons by Maize (Zea mays L.) in Remediation of Soils Contaminated with Crude Oil

This study has investigated the use of screened maize for remediation of soil contaminated with crude oil. Pots experiment was carried out for 60 days by transplanting maize seedlings into spiked soils. The results showed that certain amount of crude oil in soil (≤2 147 mg·kg^?1) could enhance the production of shoot biomass of maize. Higher concentration (6 373 mg·kg^?1) did not significantly inhibit the growth of plant maize (including shoot and root). Analysis of plant shoot by GC-MS showed that low molecular weight polycyclic aromatic hydrocarbons (PAHs) were detected in maize tissues, but PAHs concentration in the plant did not increase with higher concentration of crude oil in soil. The reduction of total petroleum hydrocarbon in planted soil was up to 52.21–72.84%, while that of the corresponding controls was only 25.85–34.22% in two months. In addition, data from physiological and biochemical indexes demonstrated a favorable adaptability of maize to crude oil pollution stress. This study suggested that the use of maize (Zea mays L.) was a good choice for remediation of soil contaminated with petroleum within a certain range of concentrations.     

Regulation of Glutamate Dehydrogenase Activity in Maize Leaves (Zea mays L.) with Change in the Light Сonditions

Biology Bulletin - The molecular and biochemical mechanisms of regulation of the activity of glutamate dehydrogenase (GDH) in maize leaves were studied when the light regime was changed. The...     

Genetic and physical fine mapping of the novel brown midrib gene bm6 in maize (Zea mays L.) to a 180?kb region on chromosome 2

Brown midrib mutants in maize are known to be associated with reduced lignin content and increased cell wall digestibility, which leads to better forage quality and higher efficiency of cellulosic biomass conversion into ethanol. Four well known brown midrib (bm) mutants, named bm1-4, were identified several decades ago. Additional recessive brown midrib mutants have been identified by allelism tests and designated as bm5 and bm6. In this study, we determined that bm6 increases cell wall digestibility and decreases plant height. bm6 was confirmed onto the short arm of chromosome 2 by a small mapping set with 181 plants from a F(2) segregating population, derived from crossing B73 and a bm6 mutant line. Subsequently, 960 brown midrib individuals were selected from the same but larger F(2) population for genetic and physical mapping. With newly developed markers in the target region, the bm6 gene was assigned to a 180?kb interval flanked by markers SSR_308337 and SSR_488638. In this region, ten gene models are predicted in the maize B73 sequence. Analysis of these ten genes as well as genes in the syntenic rice region revealed that four of them are promising candidate genes for bm6. Our study will facilitate isolation of the underlying gene of bm6 and advance our understanding of brown midrib gene functions.     

Embryo Rescue and Induction of Somatic Embryogenesis as a Method to Overcome Seed Inviability in Zea mays ssp. mays × ; Zea mays ssp. parviglumis Crosses

Zea mays ssp. mays (2n=40) and Z. mays ssp. parviglumis (2n=20) were crossed to obtain hybrid plants by embryo rescue. Hybrid embryos were isolated and cultured on García et al. (1992) basic medium supplemented with 2,4-dichlorophenoxyacetic acid and/or kinetin in different concentrations. Caryopses harvested 23 d after pollination (DAP) were turgid, with 0.3 to 0.5 mm long embryos, while those harvested 30 DAP were shrunken, with 1 to 1.5 mm long embryos. Twenty days after plating, 100 % of the younger embryos gave rise to white, compact embryogenic calli. Subsequently, coleoptiles, leaf-like structures, shoots and roots originated from them and 35 hybrid plants were regenerated from 60 embryos. Embryogenic or organogenic calli frequencies did not differ among hormonal treatments, but they decreased, on average, from 90.5 to 44.3 %, comparing 50 and 120-d-old cultures. The older embryos regenerated plants only by germination, although they gave rise to organogenic callus with low frequencies. Regenerated plants showed a somatic chromosome number of 2n=30, pollen fertility of 40 to 80 % and 15 % viable naked caryopses.     

Assessment of genetic variation in tomato （Solanum lycopersicum L.） inbred lines using SSR molecular markers

A study was conducted to determine the genetic diversity of 39 determinate and indeterminate tomato inbred lines collected from China, Japan, S. Korea, and USA. Using 35 SSR polymorphic markers, a total of 150 alleles were found with moderate levels of diversity, and a high number of unique alleles existing in these tomato lines. The mean number of alleles per locus was 4.3 and the average polymorphism information content (PIC) was 0.31. Unweighted Pair Group Method with Arithmetic Mean (UPGMA) clustering at genetic similarity value of 0.85 grouped the inbred lines into four groups, where one USA cultivar formed a separate and more distant cluster. The most similar inbred lines are from USA, both with determinate type, whereas the most different lines are from USA (Us-16) and Japan (Ja-2) with determinate and indeterminate growth habit, respectively. Clustering was consistent with the known information regarding geographical location and growth habit. The genetic distance information reported in this study might be used by breeders when planning future crosses among these inbred lines.     

Study of a corn (Zea mays L.) mutant (blue fluorescent-1) which accumulates anthranilic acid and its β-glucoside

A corn (Zea mays L.) mutant, blue fluorescent-1 (bf), is described that shows ultraviolet light induced blue fluorescence in young seedling leaves if homozygous for the mutant gene, and in anthers if either homozygous or heterozygous. The blue fluorescent compounds were extracted with acetone and separated by paper chromatography. Anthranilic acid was present and the beta-glucoside was also identified by paper chromatography and beta-glucosdase and acid treatment. A third major fluorescent compound was not identified, but it was convertible to anthranilic acid by acid treatment. Anthranilate synthetase from mutant plants was 3-40 times more active and was also more resistant to feedback inhibition by tryptophan than was the enzyme from normal plants. The high activity and feedback resistance would both lead to anthranilate accumulation. Anthranilate-phosphoribosylpyrophosphate phosphoribosyltransferase (PR transferase), the enzyme which usually utilizes anthranilate in the tryptophan pathway, was inhibited by the beta-glucoside of anthranilic acid in a noncompetitive manner and showed very little activity in the mutant plant extract. This inhibition of the enzyme which utilizes anthranilate would also lead to accumulation. Apparently the oversynthesis of anthranilate leads to the formation of the beta-glucoside, which inhibits anthranilate utilization. The fluorescent compounds are absent in seed, but form on germination. The levels decrease with age after 35 days postgermination, but are still present in leaves during grain filling.