ANATOMY OF IMMATURE GRAINS OF EIGHT MATERNAL EFFECT SHRUNKEN ENDOSPERM BARLEY MUTANTS

The anatomical basis for the shrunken endosperm phenotype of eight recessive maternal effect mutants (seg1-seg8) of barley (Hordeum vulgare L.) is described. Plants which are homozygous recessive for these nuclear genes produce only shrunken seeds regardless of pollen source. Light microscopy revealed that four of the mutants, seg1, seg3, seg6, and seg7, exhibited premature termination of grain filling because of the necrosis and crushing of the chalaza and nucellar projection of the pericarp early in the grain-filling period, resulting in thin, wrinkled seed. Endosperm growth of these mutants before the occurrence of chalazal necrosis seemed normal. The other four mutants exhibited characteristic abnormalities in the endosperm growth pattern but normal development of matemal-origin tissues. Endosperm size was severely reduced in seg2, in which two flat columns of tissue were present with no central endosperm. Seg4 and seg5 developed distorted, disorganized endosperms of variable size. Endosperms of seg8 developed as two well-filled lobes with no central endosperm, resulting in a distinct dorsal crease. We suggest that the mutants are useful as probes to study maternal effects on endosperm development.     

Involvement of DnaK protein in mini-F plasmid replication: temperature-sensitive seg mutations are located in the dnaK gene

Summary The seg mutants (seg-1 and seg-2) of Escherichia coli cannot support the replication of the F factor and mini-F plasmids at 42°C. We cloned the wild-type E. coli chromosomal DNA fragment complementing the seg-1 and seg-2 mutations and found that both mutations were complemented by the wild-type dnaK gene coding for a heat shock protein. Transduction with phage P1 indicated that the seg-2 mutation is located at about 0.3 min in the region containing the dnaK gene in the order trpR-thrA-seg-2-leuB, consistent with the locus of the dnaK gene. Cloning and sequencing of the dnaK gene of the seg mutants showed that there was one base substitution within the dnaK gene in each mutant causing an amino acid substitution. These results indicate that the seg gene in which the seg-1 and seg-2 mutations occurred is identical to the dnaK gene. The mini-F plasmid pXX325 did not transform a dnaK null mutant to ampicillin resistance at 30°C in contrast to plasmids pBR322, pACYC184 and pSC101, which did. The active dnaK (seg) gene product is therefore essential for replication of the mini-F plasmid at both 30° and 42°C.     

Temperature-sensitive mutations affecting the replication of F-prime factors in Escherichia coli K 12

Summary More temperature-sensitive mutants affecting the replication of the F-gal⁺ episome of Escherichia coli K12 have been isolated. Eight of the mutations were located on F itself and three were located on the chromosome.The temperature sensitive F-gal⁺'s have been integrated into the chromosome to produce Hfr strains. These Hfr strains have transfer origins similar to Hfr Cavalli, and all show aberrant excision and transfer of elongated segments of the chromosome including the integrated F-gal to generate long merodiploids.The chromosomal mutations that govern the replication of F have been termed seg (for segregation). Wild-type F-gal⁺ can be integrated into seg cells at 42° C to give Hfrs, in a process analogous to integrative suppression in the formation of Hfrs from cells carrying mutations that are temperature-sensitive for chromosomal DNA replication (dnaA). A curious feature of an Hfr derived from a seg strain is that it also shows F-genote enlargement as well as normal transfer of chromosomal genetic marker. Preliminary transductional mapping data show that the mutation seg-2 is linked to the threonine locus (minute 0).     

Development of tannin vacuoles in chalaza and seed coat of barley in relation to early chalazal necrosis in the seg1 mutant

Structural development of grain tissues of maternal origin in normal and seg1 barley (Hordeum vulgare L. cv. Betzes) was examined using light and electron microscopy. Chalaza and seedcoat cells of normal grains developed prominent tannin vacuoles which persisted throughout the grain-filling period. Tannins were present in the same tissues of seg1, but no large central vacuoles developed. Instead, the chalaza and nucellar projection degenerated and were crushed, presumably terminating sugar flow and causing formation of shrunken grains (35–55% normal dry weight). Tannins were localized using various histochemical stains. Extracts of chalaza and adjacent tissues contained proanthocyanidins which yielded delphinidin and cyanidin upon hydrolysis in boiling HCl. We suggest that the basis of the seg1 phenotype may be abnormal compartmentation of tannins causing precipitation of cytoplasmic proteins and early death of chalazal cells.Abbreviations FAA Formalin-acetic acid-ethanol - PAS periodic acid Schiffs reagent     

Characterization of shrunken endosperm mutants in barley

Despite numerous studies on shrunken endosperm mutants caused by either maternal tissues (seg) or kernel per se (sex) in barley, the molecular mechanism for all of the eight seg mutants (seg1–seg8) and some sex mutants is yet to be uncovered. In this study, we determined the amylose content, characterized granule-binding proteins, analyzed the expression of key genes involved in starch synthesis, and examined starch granule structure of both normal (Bowman and Morex) and shrunken endosperm (seg1, seg3, seg4a, seg4b, seg5, seg6, seg7, and sex1) barley accessions. Our results showed that amylose contents of shrunken endosperm mutants ranged from 8.9% (seg4a) to 25.8% (seg1). SDS-PAGE analysis revealed that 87 kDa proteins corresponding to the starch branching enzyme II (SBEII) and starch synthase II (SSII) were not present in seg1, seg3, seg6, and seg7 mutants. Real-time quantitative PCR (RT-qPCR) analysis indicated that waxy expression levels of seg1, seg3, seg6, and seg7 mutants decreased in varying degrees to lower levels until 27 days after anthesis (DAA) after reaching the peak at 15–21 DAA, which differed from the pattern of normal barley accessions. Further characterization of waxy alleles revealed 7 non-synonymous single nucleotide polymorphisms (SNPs) in the coding sequences and 16 SNPs and 8 indels in the promoter sequences of the mutants. Results from starch granule by scanning electron microscopy (SEM) indicated that, in comparison with normal barley accessions, seg4a, seg4b, and sex1 had fewer starch granules per grain; seg3 and seg6 had less small B-type granules; some large A-type granules in seg7 had a hollow surface. These results improve our understanding about effects of seg and sex mutants on starch biosynthesis and granule structure during endosperm development and provide information for identification of key genes responsible for these shrunken endosperm mutants.     

Plasmid replication and Hfr formation in strains of Escherichia coli carrying seg mutations.

Summary Several conditional-lethal mutations that do not permit the replication of F-factors ofEscherichia coli K-12 are located at a site calledseg. This gene is located on theE. coli chromosome betweenserB andthr. It is unrelated to other known genes involved in DNA replication. Strains carryingseg mutations were unable to replicate F-lac⁺, several F-gal⁺s, F-his⁺ and bacteriophage at 42°. However, neither phage T4, ColE1, nor any of the R factors tested were prevented from replicating at 42°C.When the kinetics of the loss of F-primes is studied inseg strains, it is found that the rate of curing depends on the size of the plasmid, larger F factors curing faster than smaller ones, and that Hfrs are formed at high frequencies. The Hfrs showed both F-genote enlargement and normal transfer of chromosomal markers. The F-genotes are unstable and segregate chromosomal markers at high frequencies. Some orthodox Hfrs were examined, and two that were known to revert to the F⁺ condition relatively frequently were found to generate enlarged F-genotes on mating, whereas two strains that were very stable with respect to reversion to the F⁺ state did not show F-genote formation.F-genote formation fromseg Hfr strains is dependent of a functionalrecA gene, as F-genote formation was not seen with aseg-2, recA-1 Hfr. This is in contrast to F-genote enlargement shown by both orthodox Hfrs and an Hfr strain constructed by integration of a temperature-sensitive F-gal⁺, whose F-genote enlargement is Rec-independent. Thus there may be more than one mechanism for the formation of enlarged F-genotes.     

A nonsense mutation in bacteriophage P1 eliminates the synthesis of a protein required for normal plasmid maintenance

A mutant of bacteriophage P1 that is defective in plasmid maintenance was isolated. P1 seg-101 carries an amber mutation in a region previously implicated in the control of plasmid maintenance. By use of a host bearing a temperature-sensitive suppressor, the dependence of P1 maintenance on the seg-101⁺ protein product was established. The rates of segregation of cured cells under various conditions suggest a role for the seg-101⁺ product in the partition of plasmids to daughter cells rather than in the replication of the plasmid. This hypothesis is supported by the observation that P1 seg-101 can drive host chromosomal DNA replication when integrated into the chromosome of a dnaA host under conditions that are nonpermissive for both the seg-101 and dnaA alleles.     

Growth characteristics, grain filling, and assimilate transport in a shrunken endosperm mutant of barley

The reported inheritance pattern of the seg1 shrunken endosperm mutant of barley (Hordeum vulgare L. cv Betzes) suggests that some defective process in the maternal plant tissues, and not in the endosperm, prevents normal grain filling in the mutant. To identify the physiological mechanism of the mutation, we compared growth, carbon exchange, and assimilate transport of Betzes and seg1 plants. Betzes and seg1 plants did not differ in mean relative growth rate, mean net assimilation rate, or carbon exchange rate. The rate and duration of grain growth of seg1 was lower than Betzes on intact plants and on detached, cultured spikes. Increasing the supply of sucrose in culture media up to 300 mm sucrose did not eliminate differences between normal and mutant grain growth. Translocation of ¹⁴C-labeled assimilates into seg1 grains ceased by 21 days after anthesis, and assimilates were diverted to lower plant parts. In contrast, assimilates were still entering Betzes grains at 29 days after anthesis. Evidence suggests that some maternal spike or grain tissue is affected by the mutation after the onset of grain filling. Identification of the specific seg1 defect may provide information about the cessation of normal grain filling.     

Gene detection of staphylococcal enterotoxins in production strain of staphylococcin injection and superantigenic activity of rSEK and rSEQ

In China, staphylococcin injection has been commonly used in the combined treatment of cancer to enhance the systemic immune response and reduce the toxicities associated with chemotherapy and radiation therapy. It is claimed that the main active component in the injection is staphylococcal enterotoxin C2 (SEC2). To determine whether other serological types of staphylococcal enterotoxins (SEs) could also be present in the injection products, in this study, the distribution of se genes (from sea to see, from seg to seu) in the one and only production strain of Staphylococcus aureus from one manufacturing company was analyzed by PCR method. In addition, sek and seq genes were cloned from the strain and the corresponding recombinant proteins, rSEK and rSEQ, were expressed in Escherichia coli and purified by affinity chromatography and anion-exchange chromatography. The superantigenic properties of the two recombinant proteins were then measured by MTT method. The PCR results showed that seven se genes are harbored by the production strain. However, sec2 gene was not detected. The results of MTT assay showed that rSEK and rSEQ could elicit strong stimulatory effects on proliferation and cytotoxicity of murine splenocytes in vitro. Overall, the results in this study indicated that one or a plurality of the seven SEs may be present in the related products, and that the two recombinant SEs are promising candidates as immunomodulatory agents for cancer therapy.     

C]Sucrose Uptake and Labeling of Starch in Developing Grains of Normal and segl Barley

Previous work showed that the segl mutant of barley (Hordeum vulgare cv Betzes) did not differ from normal Betzes in plant growth, photosynthesis, or fertility, but it produced only shrunken seeds regardless of pollen source. To determine whether defects in sucrose uptake or starch synthesis resulted in the shrunken condition, developing grains of Betzes and segl were cultured in [¹⁴C]sucrose solutions after slicing transversely to expose the endosperm cavity and free space. In both young grains (before genotypes differed in dry weight) and older grains (17 days after anthesis, when segl grains were smaller than Betzes), sucrose uptake and starch synthesis were similar in both genotypes on a dry weight basis. To determine if sucrose was hydrolyzed during uptake, spikes of Betzes and segl were allowed to take up [fructose-U-¹⁴C]sucrose 14 days after anthesis and the radioactivity of endosperm sugars was examined during 3 hours of incubation. Whereas less total radioactivity entered the endosperm and the endosperm cavity (free space) of segl, in both genotypes over 96% of the label of endosperm sugars was in sucrose, and there was no apparent initial or progressive randomization of label among hexose moieties of sucrose as compared to the free space sampled after 1 hour of incubation. We conclude that segl endosperms are capable of normal sucrose uptake and starch synthesis and that hydrolysis of sucrose is not required for uptake in either genotype. Evidence suggests abnormal development of grain tissue of maternal origin during growth of segl grains.     

Seed Development in a Shrunken Endosperm Barley Mutant

Seg8 is one of eight barley (Hordeum vulgare L.) mutants whoseendosperm development is affected by the maternal plant genotype.This study was initiated to determine the nature and onset ofabnormal development to provide a basis for further studiesaimed at understanding the mechanism of genetic control. Seeddevelopment and synthesis and accumulation of reserve substanceswere compared between seg8 and its normal counterpart, cv. Klages.Light microscopic examination showed that the mutant phenotypeappeared as early as 4 d after anthesis (DAA), and seg8 graindry weight was significantly lower than cv. Klages by 8 DAA.Grain cell number was significantly lower in seg8 by 8 DAA,indicating an early termination of cell division. The mutanthad a lower starch concentration and higher sucrose concentration,also evident at 8 DAA. Rates of [¹⁴C]sucrose incorporation intostarch in excised half seeds were similar in both genotypesat 2 and 4 DAA, but at 8 and 12 DAA seg8 had a lower rate. Totalprotein concentration was not significantly different betweenthe two genotypes throughout endosperm development. These resultsindicate that the mutation affects cell division and starchaccumulation prior to 8 DAA. It is not known if the reductionin starch biosynthesis and accumulation results from a reducedcapacity for starch or a defect in starch biosynthesis. Hordeum vulgare L., barley, shrunken endosperm mutant, endosperm development, starch, protein, endosperm cell number     

Occurrence,antibiotic resistance and enteroxigenicity of Staphylococcus spp. in tonsils of slaughtered pigs in Greece

The aims of the present study were to examine the occurrence of Staphylococcus spp. in the tonsils of slaughtered pigs in a regional slaughterhouse in Greece, the antibiotic resistance of the Staphylococcus spp. isolates, and the enteroxigenicity of the S. aureus isolates. Staphylococcus spp. were isolated in 70 (48·61%) out of the total 144 tonsil samples. The predominant species was S. aureus in coagulase-positive staphylococci (CoPS), while the predominant species were Staphylococcus epidermidis and Staphylococcus saprophyticus in the coagulase-negative staphylococci (CoNS). Staphylococcus spp. isolates presented high antibiotic resistance frequencies to tetracycline (97·1%) or clindamycin (80·0%) and low antibiotic resistance frequencies to fusidic acid (14·3%). No methicillin-resistant S. aureus (MRSA) strains were identified, and all Staphylococcus spp. isolates were susceptible to vancomycin. Among the 26 S. aureus isolates, 21 (80·76%) possessed staphylococcal enterotoxin genes with seven different enterotoxin gene profiles. The predominant enterotoxin profile was seg, sei and sej with seven S. aureus isolates. The occurrence of multidrug resistant Staphylococcus spp. in pig tonsils indicate public health risk to pork consumers and handlers in developing antimicrobial resistance.     

Genetics of the peroxidase isoenzymes in Petunia

Summary The structural gene prxE, coding for a slow cathodic peroxidase in Petunia, has been located to chromosome II, linked to F1. The presence of two mobility alleles in Petunia hybrida can be ascribed to its hybrid descent. Some properties of peroxidase e are mentioned. A gene prxJ is postulated for a still slower cathodic band. The gene Rp1, regulating the onset of expression of the allele prxB2, has been located on chromosome VII (gene order Rp1-prxF-An4). A synopsis of the isoperoxidases and the corresponding genes is given.     

Cloning and characterisation of the cytochrome c gene of Aspergillus nidulans

The cytochrome c gene (cycA) of the filamentous fungus Aspergillus nidulans has been isolated and sequenced. The gene is present in a single copy per haploid genome and encodes a polypeptide of 112 amino acid residues. The nucleotide sequence of the A. nidulans cycA gene shows 87% identity to the DNA sequence of the Neurospora crassa cytochrome c gene, and approximately 72% identity to the sequence of the Saccharomyces cerevisiae iso-1-cytochrome c gene (CYC1). The S. cerevisiae CYC1 gene was used as a heterologous probe to isolate the homologous gene in A. nidulans. The A. nidulans cytochrome c sequence contains two small introns. One of these is highly conserved in terms of position, but the other has not been reported in any of the cytochrome c genes so far sequenced. Expression of the cycA gene is not affected by glucose repression, but has been shown to be induced approximatly tenfold in the presence of oxygen and three- to fourfold under heatshock conditions.     

Molecular cloning and characterization of the recA gene of Methylomonas clara and construction of recA deficient mutant

Summary The recA gene of the methylotrophic bacterium Methylomonas clara has been isolated from a genomic library by hybridization with the Escherichia coli recA gene. Its complete nucleotide sequence consists of 1029 bp encoding a polypeptide of 342 amino acids. Nucleotide sequence analysis of the M. clara recA gene revealed extensive homologies to recA genes from E. coli and Pseudomonas aeruginosa. Part of the physiological activity of the M. clara RecA protein has become evident in that E. coli recA mutant HB101 is complemented. The cloned recA gene has been modified in vitro by site-specific mutagenesis and by insertion of a kanamycin-resistance gene cassette into the recA coding sequence. M. clara recA mutants were obtained by replacement of the active recA gene by an in-vitro inactivated gene copy. Offprint requests to: K. Esser     

Premeiotic disruption of the Neurospora crassa malate synthase gene by native and divergent DNAs

Summary Repeat-induced point mutation (RIP) has been used to generate new mutations in the previously uncharacterised gene for malate synthase in Neurospora crassa. Molecular clones carrying the am (NADP-glutamate dehydrogenase) gene and the malate synthase gene from either N. crassa or Aspergillus nidulans have been introduced into Neurospora as ectopic duplicate copies by transformation, selecting for the am function in a deletion host. A number of meiotic progeny derived from these transformants were unable to use acetate as sole carbon source, yielded no detectable malate synthase activity and demonstrated extensive cytosine methylation of their duplicated sequences. The new locus has been designated acu-9 and has been assigned to linkage group VII.     

Prevalence and classification of toxigenic Staphylococcus aureus isolated from refrigerated ready-to-eat foods (sushi, kimbab and California rolls) in Korea

Aims: To investigate the presence of toxigenic Staphylococcus aureus in ready‐to‐eat (RTE) Korean foods and determine the distribution of genes related to various types of toxin production. Methods and Results: A total of 3293 commercial RTE refrigerated foods (sushi, n = 1882; kimbab, n = 975; California rolls, n = 436) were collected from Korean grocery stores, department stores and convenience stores between January 2006 and June 2007. Of these, 197 (5·98%) RTE samples were contaminated with coagulase‐positive Staph. aureus, that is, 61 (6·26%) kimbab, 110 (5·84%) sushi and 26 (5·96%) California rolls. Multiplex PCR determined the presence of 12 toxigenic genes: sea, seb, sec, sed, see, seg, seh, sei, sej, tst‐1, eta and etb. Approximately half (49·75%) of the Staph. aureus isolates had toxigenic properties, and most of the toxigenic isolates possessed genes coding for the simultaneous production of two or more types of toxin. The most frequent toxigenic types found in Korean RTE foods were as follows: seg = sei > sea > tst‐1 > etb > seh > eta > sec > sej. Conclusions: This study provided a comprehensive analysis of toxigenic S. aureus isolates from Korean RTE foods and their toxigenicity types. This emphasizes the potential risk of various types of toxigenic Staph. aureus in refrigerated RTE food products, which should be better managed to establish safer food chains in global food markets. Significance and Impact of the Study: This result may contribute to an extended database on Staph. aureus food contamination and mitigate the lack of available information on microbiological hazards in Southeast Asian Nations.     

Identification and Isolation of the Indole-3-Pyruvate Decarboxylase Gene from Azospirillum brasilense Sp7: Sequencing and Functional Analysis of the Gene Locus

The root-associated bacterium Azospirillum brasilense Sp7 produces the growth-stimulating phytohormone indole-3-acetic acid (=IAA) via the indole-3-pyruvate pathway. The DNA region containing ipdC, the structural gene for indole-3-pyruvate decarboxylase, was identified in a cosmid gene library of strain Sp7 by hybridization and has been sequenced. Upstream of the gene, two other ORF homologous to gltX and cysS were sequenced that are transcribed in the opposite direction. A functional analysis of the cloned ipdC region has been performed. To test the expression of the gene, a lacZ-Km cartridge was introduced into the gene. By this construct, tryptophan-dependent stimulation of gene expression in A. brasilense Sp7 was observed. Evidences for the existence of another copy of the ipdC gene in the Azospirillum genome are also reported. Received: 31 October 1997 / Accepted: 8 December 1997     

Genetic organization of the unc-22 IV gene and the adjacent region in Caenorhabditis elegans

Summary The genetic organization of the region immediately adjacent to the unc-22 IV gene in Caenorhabditis elegans has been studied. We have identified twenty essential genes in this interval of approximately 1.5-map units on Linkage Group IV. The mutations that define these genes were positioned by recombination mapping and complementation with several deficiencies. With few exceptions, the positions obtained by these two methods agreed. Eight of the twenty essential genes identified are represented by more than one allele. Three possible internal deletions of the unc-22 gene have been located by intra-genic mapping. In addition, the right end point of a deficiency or an inversion affecting the adjacent genes let-56 and unc-22 has been positioned inside the unc-22 gene.