Fluorescent Protein as a Tool for Investigating Meiotic Recombination in Neurospora

We have built a series of Neurospora crassa strains containing alleles of green fluorescent protein (GFP) to provide a visual phenotype for investigating meiotic recombination. These strains provide a convenient means of screening the Neurospora knockout library for genes involved in genetic recombination. They permit rapid analysis of recombination outcomes by allowing visualization of segregation patterns in a large number of octads from crosses heterozygous for GFP. Using this system the effect of a knockout on gene conversion and/or on crossing over between the fluorescent marker and the centromere can be measured.

Meiotic Recombination in Neurospora crassa Proceeds by Two Pathways with Extensive Holliday Junction Migration

Analysis of thousands of Δmsh-2 octads using our fluorescent recombination system indicates that, as in other filamentous fungi, symmetric heteroduplex is common in the his-3 region of Neurospora crassa. Symmetric heteroduplex arises from Holliday junction migration, and we suggest this mechanism explains the high frequency of His⁺ spores in heteroallelic crosses in which recombination is initiated cis to the his-3 allele further from the initiator, cog⁺. In contrast, when recombination is initiated cis to the his-3 allele closer to cog⁺, His⁺ spores are mainly a result of synthesis-dependent strand annealing, yielding asymmetric heteroduplex. Loss of Msh-2 function increases measures of allelic recombination in both his-3 and the fluorescent marker gene, indicating that mismatches in asymmetric heteroduplex, as in Saccharomyces cerevisiae, tend to be repaired in the direction of restoration. Furthermore, the presence of substantial numbers of conversion octads in crosses lacking Msh-2 function suggests that the disjunction pathway described in S. cerevisiae is also active in Neurospora, adding to evidence for a universal model for meiotic recombination.

Delineation of the IGF-II C domain elements involved in binding and activation of the IR-A, IR-B and IGF-IR

OBJECTIVE

Human insulin-like growth factor-I and -II (IGF-I and -II) ligands share a high degree of sequence and structural homology. Despite their similarities, IGF-I and IGF-II exhibit differential receptor binding and activation characteristics. The C domains of IGF-I and IGF-II are the primary determinants of binding specificity to the insulin-like growth factor I receptor (IGF-IR), insulin receptor exon 11- (IR-A) and exon 11+ (IR-B) isoforms.

DESIGN

Three IGF-II analogues were generated in order to delineate the C domain residues that confer the differential receptor binding affinity and activation properties of the IGFs. Chimeric IGF-II analogues IGF-IICI(N) and IGF-IICI(C) contained partial IGF-I C domain substitutions (IGF-I residues underlined) GYGSSSRRSR and SRVSRRAPQT, respectively.

RESULTS

The IGF-IICI(N) analogue bound the IR-A and IGF-IR with high affinity but bound the IR-B with a relatively lower affinity than IGF-II, suggesting a negative interaction between the exon-11 encoded peptide in the IR-B and the C-domain. The ability of IGF-IICI(N) to activate receptors and elicit cell viability responses was generally proportional to its relative receptor binding affinity but appeared to act as a partial agonist equivalent to IGF-I when binding and activating the IGF-IR. In contrast, IGF-IICI(C) bound IGF-IR with high affinity but elicited lower receptor activation and cell viability responses. Analogue IGF-IICI(S) contained a truncated IGF-I C domain (GSSSRRAT) and generally displayed a relatively poor ability to bind, activate and elicit viability responses via each receptor.

CONCLUSIONS

Together, the IGF analogues demonstrate that both flanks of the IGF-II C domain play important roles in the greater ability of IGF-II to bind and activate IR receptors than IGF-I.

Use of fluorescent protein to analyse recombination at three loci in Neurospora crassa

We have inserted a histone H1-GFP fusion gene adjacent to three loci on different chromosomes of Neurospora crassa and made mating pairs in which a wild type version of GFP is crossed to one with a mutation in the 5' end of GFP. The loci are his-3, am and his-5, chosen because recombination mechanisms appear to differ between his-3 and am, and because crossing over adjacent to his-5, like his-3, is regulated by rec-2. At his-3, the frequencies of crossing over between GFP and the centromere and of conversion of 5'GFP to GFP(+) are comparable to those obtained by classical recombination assays, as is the effect of rec-2 on these frequencies, suggesting that our system does not alter the process of recombination. At each locus we have obtained sufficient data, on both gene conversion and crossing over, to be able to assess the effect of deletion of any gene involved in recombination. In addition, crosses between a GFP(+) strain and one with normal sequence at all three loci have been used to measure the interval to the centromere and to show that GFP experiences gene conversion with this system. Since any gene expressed in meiosis is silenced in Neurospora if hemizygous, any of our GFP(+) strains can be used as a quick screen to determine if a gene deleted by the Neurospora Genome Project is involved in crossing over or gene conversion.

Arbitrary single primer amplification of trace DNA substrates yields sequence content profiles that are discriminatory and reproducible

Single primer amplification is shown to yield a DNA profile that is reproducible when based on the sequence content of the amplicons rather than on the pattern of length polymorphism. The sequence-based profile increases in reliability with increasing numbers of cycles of amplification. This process uses an arbitrarily chosen primer and a low initial annealing temperature in order to amplify sequences from the whole metagenome present in a sample that may contain only trace DNA, and a large number of cycles to select subsets of sequences based on variable amplification efficiency. Using arrays, we demonstrate the utility and limitations of this approach for profiling the large metagenomes typical of soils and the trace DNA present in drug seizures. We suggest that this type of profiling will be most effective once next-generation sequencing and advanced sequence analysis becomes routine.

A rapid wire-based sampling method for DNA profiling

This paper reports the results of a commission to develop a field deployable rapid short tandem repeat (STR)-based DNA profiling system to enable discrimination between tissues derived from a small number of individuals. Speed was achieved by truncation of sample preparation and field deployability by use of an Agilent 2100 Bioanalyser(TM). Human blood and tissues were stabbed with heated stainless steel wire and the resulting sample dehydrated with isopropanol prior to direct addition to a PCR. Choice of a polymerase tolerant of tissue residues and cycles of amplification appropriate for the amount of template expected yielded useful profiles with a custom-designed quintuplex primer set suitable for use with the Bioanalyser(TM). Samples stored on wires remained amplifiable for months, allowing their transportation unrefrigerated from remote locations to a laboratory for analysis using AmpFlSTR(®) Profiler Plus(®) without further processing. The field system meets the requirements for discrimination of samples from small sets and retains access to full STR profiling when required.

High density analysis of randomly selected Neurospora octads reveals conversion associated with crossovers located between cog and his-3

We analysed 148 octads from a Neurospora cross maximised for sequence heterology in the his-3 region and detected non-Mendelian segregation at his-3, cot-1 and lys-4 loci. This was in all cases 6:2 or 2:6, with no evidence of post-meiotic segregation (PMS) in these genes. High density snp analysis was used to place crossovers between his-3 and the centromere-distal marker ad-3, and sequencing to refine the location of crossovers between his-3 and the recombination hotspot cog. Crossovers appeared to have a non-random distribution, falling close to his-3 or more than 40 kb distal, and all those in which the location was determined were flanked by sequences showing gene conversion and/or PMS amongst the polymorphisms. This octad study confirms the validity of assumptions made during random spore analyses and suggests that recombination hotspots at cot-1 and lys-4 may, unlike the relatively cold recombination initiator at the am locus, be high frequency recombinators similar to cog.

Proteinaceous Metabolites from Pyrenophora teres Contribute to Symptom Development of Barley Net Blotch

ABSTRACT Pyrenophora teres, the causal agent of net blotch of barley (Hordeum vulgare L.), induces a combination of necrosis and extensive chlorosis in susceptible barley cultivars. Cell-free filtrates from both net and spot forms of P. teres; P. teres f. sp. teres, and P. teres f. sp. maculata were found to contain phytotoxic low molecular weight compounds (LMWCs) and proteinaceous metabolites which appear to be responsible for different components of the symptoms induced by the two forms of the pathogen in a susceptible cultivar of barley (cv. Sloop). Proteins induced only brown necrotic spots or lesions similar to those induced by the pathogens 72 h after inoculation. In contrast, LMWCs induced general chlorosis seen 240 h after inoculation but not the localized necrosis. Neither hydrolyzed or heat- or protease-treated proteinaceous metabolites induced the symptoms. This is the first report of the involvement of proteins produced by P. teres in symptom development during net blotch disease of barley.

Mutation of msh-2 in Neurospora crassa does not reduce the incidence of recombinants with multiple patches of donor chromosome sequence

The Neurospora homologue msh-2 of the Escherichia coli mismatch repair gene mutS was mutated by repeat-induced point mutation (RIP) of a 1.9-kb duplication covering 1661bp of the coding sequence and 302 bp 5' of the gene. msh-2(RIP-LK1) exhibited a mutator phenotype conferring a 17-fold increase in the frequency of spontaneous mitotic reversion of his-3 allele K458. In msh-2(RIP-LK1) homozygotes, recombination frequency at the his-3 locus increased up to 2.9-fold over that in msh-2(+) diploids. Progeny of crosses homozygous msh-2(RIP-LK1), like those from crosses homozygous msh-2(+) frequently had multiple patches of donor chromosome sequence, suggesting that patchiness in msh-2(+) crosses is not explained by incomplete repair of heteroduplex DNA by MSH-2. These findings are consistent with data from the analysis of events in a Neurospora translocation heterozygote that suggested multiple patches of donor chromosome sequence arising during recombination reflect multiple template switches during DNA repair synthesis.

Chromosome pairing and meiotic recombination in Neurospora crassa spo11 mutants

Some organisms, such as mammals, green plants and fungi, require double-strand breaks in DNA (DSBs) for synapsis of homologous chromosomes at pachynema. Drosophila melanogaster and Caenorhabditis elegans are exceptions, achieving synapsis independently of DSB. SPO11 is responsible for generating DSBs and perhaps for the initiation of recombination in all organisms. Although it was previously suggested that Neurospora may not require DSBs for synapsis, we report here that mutation of Neurospora spo11 disrupts meiosis, abolishing synapsis of homologous chromosomes during pachynema and resulting in ascospores that are frequently aneuploid and rarely viable. Alignment of homologues is partially restored after exposure of spo11 perithecia to ionising radiation. Crossing over in a spo11 mutant is reduced in two regions of the Neurospora genome as expected, but is unaffected in a third.

Alleles of the hotspot cog are codominant in effect on recombination in the his-3 region of Neurospora

There are two naturally occurring functional alleles of the recombination hotspot cog, which is located 3.5 kb from the his-3 locus of Neurospora crassa. The presence of the cog+ allele in a cross significantly increases recombination in the his-3 region compared to a cross homozygous for the cog allele. Data obtained shortly after discovery of cog+ suggested that it was fully dominant to cog. However, a dominant cog+ conflicts with observations of hotspots in Saccharomyces cerevisiae and Schizosaccharomyces pombe, in which recombination is initiated independently of homolog interactions, and suggests recombination mechanisms may differ in Neurospora and yeast. We present evidence that cog alleles are codominant in effect on both allelic recombination in his-3 and crossing over between loci flanking his-3. In addition, we show that genetic background variation has at least a twofold effect on allelic recombination. We speculate that variation in genetic background, together with the complexities of recombination in crosses bearing close mutant alleles, accounts for the previous conclusion that cog+ is dominant to cog.

Guest, a transposable element belonging to the Tc1/mariner superfamily is an ancient invader of Neurospora genomes

Guest is a transposable element of the Tc1/mariner superfamily with 30-40bp terminal inverted repeats and a TA dinucleotide target site duplication. Guest was originally discovered in the St. Lawrence 74A laboratory strain of the filamentous fungus Neurospora crassa. In this report, Guest iterations subcloned from a cosmid library of the Oakridge 74A strain were used to design PCR primers that permitted the detection of Guest in wild isolates of N. crassa. Guest is present in N. crassa as multiple copies ranging between 100bp and 2.4kb and is present in the mating type locus of several Neurospora species. Bioinformatic analysis of the entire N. crassa genome (Oakridge 74A strain) detected 48 Guest iterations. All iterations appeared to have been inactivated either by repeat-induced point mutation or sequence deletion, with the majority being remnants less than 400bp in length. The possible involvement of Guest in the evolution of the variable region that flanks the mating type idiomorphs in several Neurospora species is discussed.

Sequence heterology and gene conversion at his-3 of Neurospora crassa

Although sequence heterology clearly reduces crossing over in yeast, conflicting studies suggest that mismatches may increase or decrease gene conversion. To investigate this issue in an additional species, we measured the effect of local sequence heterology on conversion in his-3 of Neurospora crassa. Mismatches close to the cog recombination initiator or within his-3 reduce conversion to 70% and 30% of the homologous level, respectively, while heterologous insertions between his-3 and cog increase conversion by 20%. We suggest that, in both Neurospora and yeast, mismatches reduce the efficiency of the establishment and resolution stages of recombination, but substantial heterology may increase the progress of already established events by preventing repair synthesis from switching between templates. These data provide additional support that recombination at his-3 (and perhaps at yeast hotspots) proceeds by a synthesis-dependent strand-annealing mechanism, during which synthesis can switch templates, with the process being more tolerant of sequence mismatch in Neurospora.

Diversification of exogenous genes in vivo in Neurospora

We have adapted the meiotic recombination hotspot cog of Neurospora crassa for shuffling exogenous DNA, providing a means of generating novel genes in situ from sequences introduced into chromosomes. Genes to be diversified are inserted between the his-3 locus and cog. Diversification crosses are heterozygous both for alleles of the exogenous DNA and for auxotrophic alleles of his-3. Progeny selected for ability to grow without histidine supplementation are enriched for exchange events within the exogenous DNA. Exchange events initiated by cog can propagate past DNA sequences mismatched for more than 370 bp and complete exchanges in patches of matched sequence as short as 24 bp, parameters that make the system suited for use in the directed evolution of genes for protein engineering. Here we demonstrate the system by shuffling human immunoglobulin kappa chain genes and also endoglucanase genes derived from different species of fungi.

Recombination at his-3 in Neurospora declines exponentially with distance from the initiator, cog

By deletion of 1.8 kb of sequence between cog(L) and his-3 and replacement with sequences of different lengths, we have generated a set of Neurospora strains in which the distance between cog(L) and the site at which recombination is selected varies from 1.7 to nearly 6 kb. Each of the manipulated strains includes cog(L), a highly active recombination hotspot, and rec-2, thus allowing high-frequency recombination. In addition, each is a his-3 mutant, either K26 or K480. The frequency of His(+) recombinants in progeny of these crosses is inversely proportional to the distance between his-3 and cog. Specifically, there is a linear relationship between log(10) (recombination frequency) and the distance in base pairs, indicating that as distance decreases, the rate of interallelic recombination increases exponentially. An exponential relationship between distance separating markers and the chance of co-conversion has been found in both Drosophila and fission yeast, indicating that the extension of recombination events may be a stochastic process in most organisms. On the basis of these and additional data presented in this article, we conclude that recombination is initiated at cog(L) in >17% of meioses, that most conversion tracts are very short, and that few extend >14 kb.

Ds-like restless deletion derivatives occur in Tolypocladium inflatum and two foreign hosts, Neurospora crassa and Penicillium chrysogenum

Single copies of the transposon Restless from Tolypocladium inflatum were introduced into Neurospora crassa and Penicillium chrysogenum. Excision of Restless from its donor site was investigated in N. crassa and in P. chrysogenum using direct selective conditions. In N. crassa, forward selection was also analyzed. Deleted Restless elements were frequently obtained in addition to the expected complete removal of Restless from its donor site. Similar deleted elements were also identified in T. inflatum employing a PCR amplification strategy. These deleted Restless copies strongly resemble maize Ds elements of various types, and direct repeated sequences of 3 to 16 bp were found to flank the truncated regions. In addition Ds1-like Restless elements were identified that carried foreign sequences between the inverted repeats. We discuss how Ds-like Restless elements might be generated by inaccurate excision from an active transposon copy.

Targeting vectors for gene diversification by meiotic recombination in Neurospora crassa

We have constructed a pair of vectors, pDV2 and pDV3, that enable targeted insertion of exogenous DNA into Linkage Group I of Neurospora crassa at the his-3 locus. Transplaced sequences are inserted between his-3 and the cog(L) recombination hot spot and include his-3 mutations that allow meiotic recombination initiated by cog(L) to be monitored. Selection of correctly placed transforming DNA is based on complementation between different his-3 alleles borne by the plasmids and transformation hosts. The system allows investigation of the effect of any given sequence on recombination as well as diversification of sets of related sequences in vivo for directed evolution of genes.