The Zinc cluster transcription factor ZtfA is an activator of asexual development and secondary metabolism and regulates the oxidative stress response in the filamentous fungus Aspergillus nidulans

Thieme, Karl G.

14 June 2017

No description available.

570

velvet

VosA

Aspergillus nidulans

Asexual development

Secondary metabolism

zinc cluster

C6

oxidative stress response

Aspergillus fumigatus

Biologie (PPN619462639)

Specific ubiquitin-dependent protein degradation requires a trimeric CandA complex in Aspergillus nidulans

Köhler, Anna Maria

28 May 2018

No description available.

570

Aspergillus nidulans

asexual development

sexual development

secondary metabolism

E3 ligase

COP9 signalosome

Nedd8

Cand1

Den1

CSN

Aspergillus fumigatus

26S Proteasome

Biologie (PPN619462639)

Evolution of Genes and Gene Networks in Filamentous Fungi

Greenwald, Charles Joaquin

2010 August 1900

The Pezizomycotina, commonly known as the filamentous fungi, are a diverse group of organisms that have a major impact on human life. The filamentous fungi diverged from a common ancestor approximately 200 – 700 million years ago. Because of the diversity and the wealth of biological and genomic tools for the filamentous fungi it is possible to track the evolutionary history of genes and gene networks in these organisms. In this dissertation I focus on the evolution of two genes (lolC and lolD) in the LOL secondary metabolite gene cluster in Epichloë and Neotyphodium genera, the evolution of the MAP kinase-signaling cascade in the filamentous fungi, the regulation of the gene networks involved in asexual development in Neurospora crassa, and the identification of two genes in the N. crassa asexual development gene network, acon-2 and acon-3. I find that lolC and lolD originated as an ancient duplication in the ancestor of the filamentous fungi, which were later recruited in the LOL gene cluster in the fungal endophyte lineage. In the MAP kinase-signaling cascade, I find that the MAPK component is the most central gene in the gene network. I also find that the MAPK signaling cascade originated as three copies in the ancestor to eukaryotes, an arrangement that is maintained in filamentous fungi. My observations of gene expression profiling during N. crassa asexual development show tissue specific expression of genes. Both the vegetative mycelium and the aerial hyphae contribute to the formation of macroconidiophores. Also, with the help of genomic tools recently developed by researchers in the filamentous fungal community, I identified NCU00478 and NCU07617 as the genes with mutations responsible for two aconidial strains of N. crassa, acon-2 and acon-3 respectively.

Gene networks

Pezizomycotina

Neurospora crassa

macroconidiation

acon-2

acon-3

map kinase

evolution

loline

lold

lolD

gene cluster

conidiation

asexual development