Isolation of True Rbp9 Null Alleles by Imprecise P Element Excisions

The P element has been widely used as a mutagen because of its convenience in locating the site of mutagenesis. However, P element-induced mutations often result in varied mutant phenotypes, making it difficult to identify the null phenotype. Previously, three Rbp9 alleles were isolated using P element mutagenesis. Although the coding regions of Rbp9 were disrupted by P elements in all three cases, they showed different degrees of defects. In order to characterize the null phenotype of Rbp9, Rbp9 alleles with chromosomal deletions were created by inducing imprecise excisions of the P elements. All Rbp9 alleles generated from imprecise excisions showed the same mutant phenotype: female flies were sterile and cystocyte differentiation was blocked. This result reveals that the primary function of Rbp9 resides in the regulation of cystocyte differentiation. In addition, this result shows that a P element does not always completely inactivate gene activity, even when it is incorporated into the coding region.     

Construction and Analyses of Mutant <Emphasis Type="Italic">ftsH</Emphasis> Alleles of <Emphasis Type="Italic">Bacillus subtilis</Emphasis> Involving the ATPase- and Zn-Binding Domains

The ftsH gene, present in all eubacterial species, is anchored in the cytoplasmic membrane and contains an ATP- and a Zn-binding domain that are both part of a metalloprotease activity. The Bacillus subtilis ftsH is not essential, but null mutants exhibit a pleiotropic phenotype including filamentous growth; hypersensitivity towards heat and salt stress and a failure to sporulate. To find out whether one or the other functional domain is involved in these different phenotypes, point mutations were introduced into the coding region for both domains leading to a replacement of conserved amino acid residues. The mutant alleles were fused to a xylose-inducible promoter and integrated ectopically into two different strains, one expressing the wild-type ftsH allele and the other carrying a ftsH knockout. While none of the strains exhibited a growth defect in rich medium at 37°C, those strains expressing only the mutant alleles did not resume growth after heat or salt stress challenge. Furthermore, none of the mutant alleles promoted sporulation. While only those purified mutant FtsH proteins with an intact Walker A box exhibited ATPase activity, all of them failed to degrade -casein.     

The Bacillus subtilis small cytoplasmic RNA gene and ''dnaX'' map near the chromosomal replication origin.

Summary TheBacillus subtilis small cytoplasmic RNA (scRNA) has an important, although not yet defined function in protein biosynthesis. Here we describe the mapping of the single copy scRNA gene and the flanking homolog todnaZX ofEscherichia coli, termed dnaX. The scRNA gene region of aB. subtilis wild-type strain was marked with acat gene and mapped by scoring chromosomal co-transformation rates of various mutant strains to chloramphenicol resistance and loss of the mutant phenotypes, respectively. This analysis, together with anEcoRI map comparison, places the scRNA gene anddnaX in the vicinity ofrecM near the replication origin region ofB. subtilis.     

New phenotypes associated with the swallow gene of Drosophila: evidence for a general role in oocyte cytoskeletal organization

During oogenesis in Drosophila, several mRNAs and proteins are localized to discrete regions of the developing oocyte, resulting in a mature oocyte with a well-defined anterior–posterior axis. The product of the swallow (sww) gene is required for the localization of two different mRNAs during oogenesis, bicoid (bcd) and Adducin-like/hu-li tai shao (hts). We initiated a detailed characterization of the phenotypes associated with each of eight sww alleles as a means of investigating the role of sww in oogenic patterning. RNA localization defects in various sww mutants were examined by radioactive in situ hybridization to paraffin sections. Using this technique, several previously unreported RNA localization defects have been observed. Although bcd RNA localization is often lost completely in sww oocytes, in a high proportion of cases, bcd RNA is localized inappropriately along the periphery of the mature oocyte. In several sww mutants, a portion of the bcd mRNA population becomes concentrated at the posterior pole of the oocyte during late oogenesis. Several sww mutations also result inoskar RNA localization defects, consistent with a global role for sww in cytoskeletal regulation or organization. A detailed temporal and spatial analysis of hts RNA localization in sww mutants and in drug-treated ovaries reveals many similarities to bcd RNA localization, and implies the two independent localization events are accomplished by the same mechanism. Received: 10 January 2000 / Accepted: 9 March 2000     

A new <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> deletion mutant <Emphasis Type="Italic">apetala1-20</Emphasis>

A new deletion allele of the APETALA1 (AP1) gene encoding a type II MADS-box protein with the key role in the initiation of flowering and development of perianth organs has been identified in A. thaliana. The deletion of seven amino acids in the conserved region of the K domain in the ap1-20 mutant considerably delayed flowering and led to a less pronounced abnormality in the corolla development compared to the weak ap1-3 and intermediate ap1-6 alleles. At the same time, a considerable stamen reduction has been revealed in ap1-20 as distinct from ap1-3 and ap1-6 alleles. These data indicate that the K domain of AP1 can be crucial for the initiation of flowering and expression regulation of B-class genes controlling stamen development.     

Analysis of a swallow homologue from Drosophila pseudoobscura

We analyzed a functional homologue of the swallow gene from Drosophila pseudoobscura. The swallow gene of D. melanogaster plays an essential role in localizing bicoid mRNA in oocytes, and swallow mutant embryos show anterior pattern defects that result from the lack of localization of the bicoid morphogen. The pseudoobscura homologue rescues the function of swallow mutants when introduced into the genome of D. melanogaster, and its expression is similar to that of the melanogaster gene. The predicted pseudoobscura and melanogaster proteins are 49% identical and 69% conserved. The coiled-coil domain previously identified in the melanogaster swallow protein is strongly conserved in the pseudoobscura homologue, but the weak similarity of the melanogaster swallow protein to the RNP class of RNA-binding proteins is not conserved in the pseudoobscura homologue. These and other observations suggest a structural role for swallow in localizing bicoid mRNA, perhaps as part of the egg cytoskeleton. Received: 3 August 1999 / Accepted: 29 September 1999     

Polymorphism and chromosomal location of endogenous α-amylase inhibitor genes in common wheat

Summary Polymorphism of an endogenous -amylase inhibitor in wheat was studied using iso-electric focusing followed by monoclonal antibody — based immunoblotting. Ten isoforms of the inhibitor detected in common wheat and its wild counterparts were assigned to five homoeologous loci. Three -amylase inhibitor loci (Isa-1) were identified in common wheat and located on the long arms of chromosomes 2A, 2B and 2D. In a sample of 27 bread wheats, eight durum wheats, and 12 diploid wheat relatives, amphiploids and triticales, a high resolution isoelectric-focusing separation demonstrated two active and one null allele at the Isa-A1, two alleles at the Isa-B1, one allele at the Isa-D1, four alleles at the Isa-S1, and one allele at the Isa-G1 locus. The most frequent electrophoretic pattern of common wheat cultivars consisted of two isoforms, encoded respectively by the Isa-B1b, Isa-D1 a alleles and the Isa-Alnull allele. All the durum wheats had only one inhibitor form controlled by allele Isa-B1b, which was accompanied by the null allele at the Isa-A1 locus.Contribution No. 210 of the Food Science Department, University of Manitoba     

aubergine mutations in Drosophila melanogaster impair P cytotype determination by telomeric P elements inserted in heterochromatin

Transposable P elements inserted in the heterochromatic Telomeric Associated Sequences on the X chromosome (1A site) of Drosophila melanogaster have a very strong capacity to elicit the P cytotype, a maternally transmitted condition which represses P element transposition and P-induced hybrid dysgenesis. This repressive capacity has previously been shown to be sensitive to mutant alleles of the gene Su(var)205, which encodes HP1 (Heterochromatin Protein 1), thus suggesting a role for chromatin structure in repression. Since an interaction between heterochromatin formation and RNA interference has been reported in various organisms, we tested the effect of mutant alleles of aubergine, a gene that has been shown to play a role in RNA interference in Drosophila, on the repressive properties of telomeric P elements. Seven out of the eight mutant alleles tested clearly impaired the repressive capacities of the two independent telomeric P insertions at 1A analyzed. P repression by P strains whose repressive capacities are not linked to the presence of P copies at 1A were previously found to be insensitive to Su(var)205; here, we show that they are also insensitive to aubergine mutations. These results strongly suggest that both RNA interference and heterochromatin structure are involved in the establishment of the P cytotype elicited by telomeric P elements, and reinforce the hypothesis that different mechanisms for repression of P elements exist which depend on the chromosomal location of the regulatory copies of P.Communicated by G. Reuter     

Sequence of swallow,a gene required for the localization of bicoid message in Drosophila eggs

We report the sequence of the Drosophila maternal effect gene swallow, one of the genes whose product is required for the localization of bicoid message during Drosophila oo-genesis. The inferred swallow protein contains a domain that is predicted to be an amphipathic α-helix similar to those implicated in protein:protein associations in other systems. Another part of the predicted protein appears to be a diverged RNA-binding motif. We discuss these structural features in light of the function of the swallow protein in the bicoid message localization process.     

The<Emphasis Type="Italic"> Trox-2</Emphasis> Hox/ParaHox gene of<Emphasis Type="Italic"> Trichoplax</Emphasis> (Placozoa) marks an epithelial boundary

Hox and ParaHox genes are implicated in axial patterning of cnidarians and bilaterians, and are thought to have originated by tandem duplication of a single ProtoHox gene followed by duplication of the resultant gene cluster. It is unclear what the ancestral role of Hox/ParaHox genes was before the divergence of Cnidaria and Bilateria, or what roles the postulated ProtoHox gene(s) played. Here we describe the full coding region, spatial expression and function of Trox-2, the single Hox/ParaHox-type gene identified in Trichoplax adhaerens (phylum Placozoa) and either a candidate ProtoHox or a ParaHox gene. Trox-2 is expressed in a ring around the periphery of Trichoplax, in small cells located between the outer margins of the upper and lower epithelial cell layers. Inhibition of Trox-2 function, either by uptake of morpholino antisense oligonucleotides or by RNA interference, causes complete cessation of growth and binary fission. We speculate that Trox-2 functions within a hitherto unrecognized population of possibly multipotential peripheral stem cells that contribute to differentiated cells at the epithelial boundary of Trichoplax.Edited by D. Tautz     

The <Emphasis Type="Italic">Drosophila</Emphasis> RNA-binding protein Lark is required for localization of Dmoesin to the oocyte cortex during oogenesis

The RNA-binding protein Lark has an essential maternal role during Drosophila oogenesis. Elimination of maternal expression results in defects in cytoplasmic dumping and actin cytoskeletal organization in nurse cells. The function of this protein is dependent on the activity of one or more N-terminal RNA-binding domains. Here, we report the identification of Dmoesin (Dmoe) as a candidate RNA target of Lark during oogenesis. In addition to actin defects in the nurse cells of lark mutant ovaries, we observed mislocalization of posteriorly localized mRNAs including oskar and germ cell less in the developing oocyte. Anteriorly and dorsally localized mRNAs were not affected. In addition, we observed displacement of the actin cytoskeleton from the oocyte plasma membrane. These phenotypes are reminiscent of mutations in Dmoe and suggested that this RNA maybe a potential target of Lark. We observed a significant decrease in Dmoe protein associated with the membrane of the developing oocyte with no changes in expression or localization within the nurse cells. Evidence for an association between Lark protein and moe RNA during oogenesis comes from results of a microarray-based Ribonomics approach to identify Lark RNA targets. Thus, our results provide evidence that Dmoe RNA is a target of Lark during oogenesis and that it likely regulates either the splicing or translation of this RNA. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Four additive genes determining pappus part numbers inMicroseris annual hybrid C34 (Asteraceae/Lactuceae)

Microseris strain C34 is a hybrid between the Chilean speciesM. pygmaea (10 pappus parts) and the CalifornianM. bigelovii (5 pappus parts). The F1 specimen had from 5 to 10 pappus parts per achene with an average of 6. F2, F3 and F4 plants derived from this hybrid by spontaneous selfing show segregation for the average number of pappus parts. Four segregating unlinked genes could be demonstrated, each with an allele determining 5 pappus parts from thebigelovii parent, one with an allele determining 10 pappus parts, three with null alleles from thepygmaea parent. The expected average pappus part number is the arithmetic mean of the 5- and 10-determining factors. Considerable environmental and developmental influences, both random noise and systematic shifts, could be demonstrated to influence the phenotypic expression. The parallel hybrid strain B87 has two 10-alleles rather than one in itspygmaea genome. The evolution of the pappus part genes ofM. pygmaea from those of abigelovii-like ancestor seems to demand the concerted (non-independent) mutation of at least two genes.     

Molecular analysis of C1 alleles in Zea mays defines regions involved in the expression of this regulatory gene

The structure and function of several C1 alleles have been investigated molecularly and the importance of C1 promoter sequences for gene expression was studied using transient transformation assays. The C1 mutants analyzed were the overexpressing allele C1-S, the light-inducible allele c1-p, the null recessive allele c1-n, and the Ds element-induced allele c1-m1. Nucleotide sequence analysis of the alleles revealed a number of differences, predominantly located at the 3 end of the gene. The promoter sequences of the C1 alleles investigated so far (including wild-type and the dominant inhibitor C1-I allele) are almost identical except for two short footprint-like sequences (Box I and Box 11) close to the putative CAAT box. Northern blot experiments and transient expression in particle gun experiments indicate that these sequences may be correlated with the different expression patterns of the alleles in the aleurone of maturing and germinating kernels.     

Elements of theS-gene complex VI. Mutations of the self-incompatibility gene,pseudo-compatibility and origin of new self-incompatibility alleles

Spontaneously occurring mutations of theS gene, involving both theS _I and theS _FI classes of alleles, were studied inNicotiana alata. The results showed that while almost all of the irradiation-induced mutants of theS gene requiredS-bearing duplication for their survival, usually in the form of a free fragment, most of the spontaneous mutants in the same species, surprisingly, did not have such a requirement. This difference has been attributed to the greater depth of mutations produced in response to the ionizing radiations, which necessitated complementation for the survival of the mutants. There is a possibility from the data that theS _FI class of alleles may have even less need for the duplication than the S_I class of alleles. Both pollen- and stylar-part mutations of theS gene were obtained, but the majority of the mutations were partial, producing less than half the normal complement of seeds per pod in the mutants. Complementation was observed in the style between a -part mutant alleleS _infF11 ^sup and a normal alleleS _F10, which was the other allele in the parental plant that produced the mutant. No complementation occurred with another normal unrelated alleleS ₂. This observation was similar to that previously recorded in the study of induced mutants inN. alata.In a cross where the two alleles of the pollen parent were both compatible the allele which was also a mutant had an advantage over the other, normal, allele. This suggests that in maize, where the occurrence of mutant forms of theS gene has been demonstrated, the preferential fertilization of ovules by pollen containing the B-chromosomes may be due to the presence of a mutant form of theS gene on the B-chromosome.Besides clear-cutS-gene mutants, there were others, showing mostly irregular, slight compatibility, which did not appear to be directly related to theS-gene mutation. In some of the progeny of certain of these mutants, partial or complete lack of the specificity of one or bothS alleles in the style was observed; in certain others all progeny were normal. This pseudo-compatibility is attributed to cytoplasmic mutations affecting the products of theS gene; however, the possibility of an effect of chance polygenic modifier combinations is not ruled out.Recent literature on theS-gene structure, mutational specificity ofS alleles, and genetic control of pseudo-compatibility is reviewed. The time ofS-gene action is discussed in relation to the mechanism of the generation of new self-incompatibility alleles.     

The isolation and characterization of a mutant allele at a new X-linked locus,mex, affecting NADP+-dependent enzymes inDrosophila melanogaster

The isolation and characterization of mutant alleles in a regulatory gene affecting NADP⁺-dependent enzymes are described. The locus,mex, is at position 26.5 ± 0.74 on the X chromosome ofDrosophila melanogaster. The newly isolated mutant allele,mex ¹, is recessive to either themex allele found in Oregon-R wild-type individuals or that found in thecm v parental stock in which the new mutants were induced. Themex ¹ mutant allele is associated with statistically significant decreases in malic enzyme (ME) specific activity and ME specific immunologically cross-reacting material (ME-CRM) in newly emerged adult males. During this same developmental stage in males, the NADP⁺-dependent isocitrate dehydrogenase specific activity increases to statistically significant levels. Females of themex ¹ mutant strain show statistically significant elevated levels of the pentose phosphate shunt enzymes, glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase. Isoelectric focusing and thermolability comparisons of the active ME from mutant and control organisms indicate that the enzyme is the same. Developmental profiles ofmex ¹ and control strains indicate that this mutant allele differentially modulates the levels of ME enzymatic activity and ME-CRM during development. This work was supported by an Operating Grant from the Natural Sciences and Engineering Research Council of Canada to M.M.B.     

Regions in theZ5 mating gene ofSchizophyllum commune involved in Y-Z binding and recognition

The A mating locus of the woodrotting fungusSchizophyllum commune encodes two multiallelic genes,Y andZ, which regulate the A-pathway of development. TheY alleles contain a homeobox, suggesting that the Y proteins may be DNA-binding regulatory proteins. During mating, development is induced when Y from one mating partner interacts with Z from the other mating partner; self combinations of Y and Z are inactive. Two-hybrid analyses indicate that nonself combinations of Y and Z form heteromultimers and self combinations do not. To understand Y-Z binding and self- nonself recognition further we used mutagenesis and chimeras to identify regions in one allele ofZ(Z5) that are involved in these processes. Here we report the results, which broadly define regions in Z5 that are essential for activity, Y-Z binding and Z5 allelic specificity.The sequence reported in this paper has been deposited in the Genbank database under accession number U22049     

Experimental verification of microsatellite null alleles in Norway spruce (Picea abies [L.] Karst.): Implications for population genetic studies

Three stands ofPicea abies [L.] Karst. with different density in the Harz Mountains (Lower Saxony, Germany) were characterized at 4 microsatellite loci. An excess of homozygotes was observed in all 3 stands at 1 simple sequence repeat (SSR) locus, suggesting the presence of null alleles. To test for the segregation of a null allele, 24 openpollinated seeds (haploid megagametophytes and embryos) from apparently homozygous mother trees were analyzed. For 1 of 3 trees that could be identified as heterozygous for a null allele, no significant deviation from the expected 1∶1 segregation into marker absence (null allele) and marker presence of the second maternal allele could be observed in the haploid megagametophyte. Concordantly, the numbers of embryos heterozygous for the null allele and for the other maternal allele were not significantly different from each other. Inheritance analyses in seedlings and corresponding megagametophytes of gymnosperms were used as a direct experimental verification of microsatellite null alleles in single-tree progeny. Microsatellites with an abundance of null alleles should be discarded from further analysis because inclusion of these loci results in incorrect estimation of allele frequencies.     

σs-dependent overexpression offtsZ in anEscherichia coli K-12 rpoB mutant that is resistant to the division inhibitors DicB and DicF RNA

TheEscherichia coli genesdicF anddicB encode division inhibitors, which prevent the synthesis and activity, respectively, of the essential division protein FtsZ. A mutation at the C-terminal end of the RNA polymerase subunit renders cells resistant to both inhibitors. In the mutant strain the level of theftsZ gene product is higher than in the wild type. Disruption ofrpoS, which encodes the stationary phase sigma factor ^S, lowers FtsZ protein levels in the mutant, and partially restores sensitivity to the inhibitors.     

<Emphasis Type="Italic">ZWILLE</Emphasis> buffers meristem stability in<Emphasis Type="Italic"> Arabidopsis thaliana</Emphasis>

The shoot apical meristem of higher plants consists of a population of stem cells at the tip of the plant body that continuously gives rise to organs such as leaves and flowers. Cells that leave the meristem differentiate and must be replaced to maintain the integrity of the meristem. The balance between differentiation and maintenance is governed both by the environment and the developmental status of the plant. In order to respond to these different stimuli, the meristem has to be plastic thus ensuring the stereotypic shape of the plant body. Meristem plasticity requires the ZWILLE (ZLL) gene. In zll mutant embryos, the apical cells are misspecified causing a variability of the meristems size and function. Using specific antibodies against ZLL, we show that the zll phenotype is due to the complete absence of the ZLL protein. In immunohistochemical experiments we confirm the observation that ZLL is solely localized in vascular tissue. For a better understanding of the role of ZLL in meristem stability, we analysed the genetic interactions of ZLL with WUSCHEL (WUS) and the CLAVATA1, 2 and 3 (CLV) genes that are involved in size regulation of the meristem. In a zll loss-of-function background wus has a negative effect whereas clv mutations have a positive effect on meristem size. We propose that ZLL buffers meristem stability non-cell-autonomously by ensuring the critical number of apical cells required for proper meristem function.Edited by G. JürgensAn erratum to this article can be found at