about
The genome sequence of the filamentous fungus Neurospora crassaLong-read, whole-genome shotgun sequence data for five model organismsGuest, a transposable element belonging to the Tc1/mariner superfamily is an ancient invader of Neurospora genomes.Lessons from the genome sequence of Neurospora crassa: tracing the path from genomic blueprint to multicellular organism.Meiotic Recombination in Neurospora crassa Proceeds by Two Pathways with Extensive Holliday Junction MigrationUse of fluorescent protein to analyse recombination at three loci in Neurospora crassa.Alleles of the hotspot cog are codominant in effect on recombination in the his-3 region of Neurospora.Delineation of the IGF-II C domain elements involved in binding and activation of the IR-A, IR-B and IGF-IR.Diversification of exogenous genes in vivo in Neurospora.Ds-like restless deletion derivatives occur in Tolypocladium inflatum and two foreign hosts, Neurospora crassa and Penicillium chrysogenum.Chromosome pairing and meiotic recombination in Neurospora crassa spo11 mutants.Residual recombination in Neurospora crassa spo11 deletion homozygotes occurs during meiosis.A rapid wire-based sampling method for DNA profiling.A study of one soil, its relatives and contaminants by arbitrary primed PCR with 50mer based analysisA crossover hotspot near his-3 in Neurospora crassa is a preferential recombination termination siteHigh density analysis of randomly selected Neurospora octads reveals conversion associated with crossovers located between cog and his-3Characterisation of low molecular weight phytotoxins isolated from Pyrenophora teresInitial characterisation of phytotoxic proteins isolated from Pyrenophora teresProteinaceous Metabolites from Pyrenophora teres Contribute to Symptom Development of Barley Net Blotch
P50
Q22122516-6BA2B27C-EC0A-4312-B27B-2A5308FA66ACQ30952245-46743143-AB00-46F2-89F0-389391E39A5FQ31029463-37E8480A-F758-4A89-B07B-5595713DE630Q35684970-F9285CA4-7F24-4CD7-9E49-34F4C1DBDFBFQ35905065-56664487-A7DC-4391-A640-76671952701CQ36110079-83EA0937-FC99-4714-8ECF-62E901A2A3E0Q42426584-410E7F5F-8A5B-4145-8140-5E2E13AABF1FQ42832872-9F11B85F-F5E7-449B-936A-7DAF32B69A2DQ44447368-C81D8180-A4C9-4B6E-9096-16BF08333D3AQ48318243-7175B057-5CDA-4B4A-B345-D096D49EECE9Q50727811-79AEC60A-34AD-449D-AC86-3B45C5949E72Q50878069-95347F65-4661-4230-B706-0F4845BDCEFDQ54331351-AD3A9562-9507-4A32-9184-81186871AC21Q58033307-0D135BC2-96CD-4756-B726-D2EA7C177633Q58033316-F7E0F893-4918-441F-9EBE-1F252C100023Q58033331-0923EB44-558B-4D4E-BEC7-72CF1FFF668BQ58033333-76995440-7A9E-4EAA-AEE0-4B8776CEE0B7Q58033337-933CAF19-7AE9-4D51-AB44-A23BF7975609Q58033340-246DC149-741A-4806-9A09-B97C83C33CFE
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
David Catcheside
@ast
David Catcheside
@en
David Catcheside
@es
David Catcheside
@nl
David Catcheside
@sl
type
label
David Catcheside
@ast
David Catcheside
@en
David Catcheside
@es
David Catcheside
@nl
David Catcheside
@sl
prefLabel
David Catcheside
@ast
David Catcheside
@en
David Catcheside
@es
David Catcheside
@nl
David Catcheside
@sl
P106
P21
P31
P496
0000-0002-7101-6849