1 Structural analyses of MAT sequences from
homothallic and heterothallic Cochliobolus species suppo
2 pha opposite-sex congenic mating; thus, both
homothallic and heterothallic sexual reproduction can ge
3 Both species are
homothallic,
and inversion of their MAT regions can be i
4 fertility compared to other heterothallic or
homothallic aspergilli and require unusually fastidious
5 All 28 isolates are
homothallic (
capable of mating-type switching) and wild
6 tagprB eliminated fruiting body formation in
homothallic conditions.
7 etes but also confirm that heterothallic and
homothallic Dothideomycete fungi can be interconverted b
8 h MAT1-1-1 and MAT1-2-1 genes as observed in
homothallic filamentous Ascomycetes.
9 inates asexual and sexual development in the
homothallic fungal species Aspergillus nidulans.
10 e occurrence and frequency of outcrossing in
homothallic fungal species in nature is an unresolved qu
11 Yet some
homothallic fungi been overlooked compared to heterothal
12 ort detection of frequent outcrossing in the
homothallic fungus Sclerotinia sclerotiorum.
13 These results establish that
homothallic mating can occur in C. albicans, revealing t
14 icient to drive same-sex a-a cell fusion and
homothallic mating.
15 ether sexual reproduction can potentially be
homothallic or is exclusively heterothallic.
16 bodies (cleistothecia) can be formed in both
homothallic (
self) and heterothallic (outcross) conditio
17 -sterile); those not requiring a partner are
homothallic (
self-fertile).
18 oduce via both heterothallic outcrossing and
homothallic selfing modes, and transitions between the t
19 Chlamydomonas monoica undergoes
homothallic sexual reproduction in response to nitrogen
20 The self-compatible (
homothallic)
sexual systems of many fungi severely limit
21 tion of heterochromatin at telomeres and the
homothallic silent mating type loci require the Sir3 pro
22 le mating types (MATa and MATalpha), whereas
homothallic species are those that can switch mating typ
23 Homothallic species carry both MAT genes in a single nuc
24 Expression of a fused MAT gene from a
homothallic species confers self-fertility on a MAT-null
25 in contrast, the organization of MAT in each
homothallic species is unique.
26 udy the global pattern of transcription in a
homothallic strain of Saccharomyces cerevisiae isolated
27 Homothallic strains of Saccharomyces cerevisiae can chan
28 During
homothallic switching of the mating-type (MAT) gene in S
29 Homothallic switching of the mating-type MATa gene in Sa
30 functions of the matA mating type gene in a
homothallic system.
31 terothallic a- sexual cycle or an inbreeding/
homothallic -
unisexual mating process.
32 Remarkably,
homothallic yeast cells can switch their mating type as
33 information used in mating type switching in
homothallic yeast strains.