node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
abaA | brlA | P20945 | P10069 | Conidiophore development regulator abaA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific gene. Controls temporal and spatial specificity in Aspergillus development. Directs the differentiation of phialides and is continuously required for maintenance of their function. Expression of abaA leads to activation of brlA and wetA, cessation of vegetative growth, and accentuated cellular vacuolization. Binds to the sequence 5'-CATT [...] | C2H2 type master regulator of conidiophore development brlA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Binds promoters of target genes at brlA response elements (BREs) containing the conserved sequence 5'- (C/A)(A/G)AGGG(G/A)-3'. Controls the expression of the conidiophore-specific phenol oxidase ivoB. Controls the expression of the hydrophobin rodA. Mediates the developmental switch from the indeterminate, apic [...] | 0.999 |
abaA | rodA | P20945 | P28346 | Conidiophore development regulator abaA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific gene. Controls temporal and spatial specificity in Aspergillus development. Directs the differentiation of phialides and is continuously required for maintenance of their function. Expression of abaA leads to activation of brlA and wetA, cessation of vegetative growth, and accentuated cellular vacuolization. Binds to the sequence 5'-CATT [...] | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | 0.549 |
abaA | vosA | P20945 | Q5BBX1 | Conidiophore development regulator abaA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific gene. Controls temporal and spatial specificity in Aspergillus development. Directs the differentiation of phialides and is continuously required for maintenance of their function. Expression of abaA leads to activation of brlA and wetA, cessation of vegetative growth, and accentuated cellular vacuolization. Binds to the sequence 5'-CATT [...] | Spore development regulator vosA; Component of the velB-VosA heterodimeric complex that plays a dual role in activating genes associated with spore maturation and repressing certain development-associated genes. Controls primarily the late process of sporulation including trehalose biogenesis. The complex binds DNA through the DNA-binding domain of vosA that recognizes an 11-nucleotide consensus sequence 5'- CTGGCCGCGGC-3' consisting of two motifs in the promoters of key developmental regulatory genes. The vosA-velB complex binds to the beta-glucan synthase fksA gene promoter in asexua [...] | 0.955 |
abaA | wetA | P20945 | P22022 | Conidiophore development regulator abaA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific gene. Controls temporal and spatial specificity in Aspergillus development. Directs the differentiation of phialides and is continuously required for maintenance of their function. Expression of abaA leads to activation of brlA and wetA, cessation of vegetative growth, and accentuated cellular vacuolization. Binds to the sequence 5'-CATT [...] | Developmental regulatory protein wetA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Responsible for activating a set of genes whose products make up the final two conidial wall layers or direct their assembly and, through this activity, is responsible for acquisition of spore dormancy. | 0.977 |
brlA | abaA | P10069 | P20945 | C2H2 type master regulator of conidiophore development brlA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Binds promoters of target genes at brlA response elements (BREs) containing the conserved sequence 5'- (C/A)(A/G)AGGG(G/A)-3'. Controls the expression of the conidiophore-specific phenol oxidase ivoB. Controls the expression of the hydrophobin rodA. Mediates the developmental switch from the indeterminate, apic [...] | Conidiophore development regulator abaA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific gene. Controls temporal and spatial specificity in Aspergillus development. Directs the differentiation of phialides and is continuously required for maintenance of their function. Expression of abaA leads to activation of brlA and wetA, cessation of vegetative growth, and accentuated cellular vacuolization. Binds to the sequence 5'-CATT [...] | 0.999 |
brlA | rodA | P10069 | P28346 | C2H2 type master regulator of conidiophore development brlA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Binds promoters of target genes at brlA response elements (BREs) containing the conserved sequence 5'- (C/A)(A/G)AGGG(G/A)-3'. Controls the expression of the conidiophore-specific phenol oxidase ivoB. Controls the expression of the hydrophobin rodA. Mediates the developmental switch from the indeterminate, apic [...] | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | 0.675 |
brlA | vosA | P10069 | Q5BBX1 | C2H2 type master regulator of conidiophore development brlA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Binds promoters of target genes at brlA response elements (BREs) containing the conserved sequence 5'- (C/A)(A/G)AGGG(G/A)-3'. Controls the expression of the conidiophore-specific phenol oxidase ivoB. Controls the expression of the hydrophobin rodA. Mediates the developmental switch from the indeterminate, apic [...] | Spore development regulator vosA; Component of the velB-VosA heterodimeric complex that plays a dual role in activating genes associated with spore maturation and repressing certain development-associated genes. Controls primarily the late process of sporulation including trehalose biogenesis. The complex binds DNA through the DNA-binding domain of vosA that recognizes an 11-nucleotide consensus sequence 5'- CTGGCCGCGGC-3' consisting of two motifs in the promoters of key developmental regulatory genes. The vosA-velB complex binds to the beta-glucan synthase fksA gene promoter in asexua [...] | 0.954 |
brlA | wetA | P10069 | P22022 | C2H2 type master regulator of conidiophore development brlA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Binds promoters of target genes at brlA response elements (BREs) containing the conserved sequence 5'- (C/A)(A/G)AGGG(G/A)-3'. Controls the expression of the conidiophore-specific phenol oxidase ivoB. Controls the expression of the hydrophobin rodA. Mediates the developmental switch from the indeterminate, apic [...] | Developmental regulatory protein wetA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Responsible for activating a set of genes whose products make up the final two conidial wall layers or direct their assembly and, through this activity, is responsible for acquisition of spore dormancy. | 0.955 |
dewA | mpg1 | P52750 | Q5B1J4 | Spore-wall fungal hydrophobin dewA; Belongs to the fungal hydrophobin family. | Mannose-1-phosphate guanyltransferase; Involved in cell wall synthesis where it is required for glycosylation. Involved in cell cycle progression through cell-size checkpoint (By similarity); Belongs to the transferase hexapeptide repeat family. | 0.650 |
dewA | rodA | P52750 | P28346 | Spore-wall fungal hydrophobin dewA; Belongs to the fungal hydrophobin family. | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | 0.943 |
mpg1 | dewA | Q5B1J4 | P52750 | Mannose-1-phosphate guanyltransferase; Involved in cell wall synthesis where it is required for glycosylation. Involved in cell cycle progression through cell-size checkpoint (By similarity); Belongs to the transferase hexapeptide repeat family. | Spore-wall fungal hydrophobin dewA; Belongs to the fungal hydrophobin family. | 0.650 |
mpg1 | rodA | Q5B1J4 | P28346 | Mannose-1-phosphate guanyltransferase; Involved in cell wall synthesis where it is required for glycosylation. Involved in cell cycle progression through cell-size checkpoint (By similarity); Belongs to the transferase hexapeptide repeat family. | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | 0.408 |
rodA | abaA | P28346 | P20945 | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | Conidiophore development regulator abaA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific gene. Controls temporal and spatial specificity in Aspergillus development. Directs the differentiation of phialides and is continuously required for maintenance of their function. Expression of abaA leads to activation of brlA and wetA, cessation of vegetative growth, and accentuated cellular vacuolization. Binds to the sequence 5'-CATT [...] | 0.549 |
rodA | brlA | P28346 | P10069 | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | C2H2 type master regulator of conidiophore development brlA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Binds promoters of target genes at brlA response elements (BREs) containing the conserved sequence 5'- (C/A)(A/G)AGGG(G/A)-3'. Controls the expression of the conidiophore-specific phenol oxidase ivoB. Controls the expression of the hydrophobin rodA. Mediates the developmental switch from the indeterminate, apic [...] | 0.675 |
rodA | dewA | P28346 | P52750 | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | Spore-wall fungal hydrophobin dewA; Belongs to the fungal hydrophobin family. | 0.943 |
rodA | mpg1 | P28346 | Q5B1J4 | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | Mannose-1-phosphate guanyltransferase; Involved in cell wall synthesis where it is required for glycosylation. Involved in cell cycle progression through cell-size checkpoint (By similarity); Belongs to the transferase hexapeptide repeat family. | 0.408 |
rodA | vosA | P28346 | Q5BBX1 | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | Spore development regulator vosA; Component of the velB-VosA heterodimeric complex that plays a dual role in activating genes associated with spore maturation and repressing certain development-associated genes. Controls primarily the late process of sporulation including trehalose biogenesis. The complex binds DNA through the DNA-binding domain of vosA that recognizes an 11-nucleotide consensus sequence 5'- CTGGCCGCGGC-3' consisting of two motifs in the promoters of key developmental regulatory genes. The vosA-velB complex binds to the beta-glucan synthase fksA gene promoter in asexua [...] | 0.606 |
rodA | wetA | P28346 | P22022 | Rodlet protein; Contributes to surface hydrophobicity, which is important for processes such as association of hyphae in reproductive structures, dispersal of aerial spores and adhesion of pathogens to host structures. Important for the formation of hydrophobic rodlet layers of asexually-produced spores; Belongs to the fungal hydrophobin family. | Developmental regulatory protein wetA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Responsible for activating a set of genes whose products make up the final two conidial wall layers or direct their assembly and, through this activity, is responsible for acquisition of spore dormancy. | 0.624 |
vosA | abaA | Q5BBX1 | P20945 | Spore development regulator vosA; Component of the velB-VosA heterodimeric complex that plays a dual role in activating genes associated with spore maturation and repressing certain development-associated genes. Controls primarily the late process of sporulation including trehalose biogenesis. The complex binds DNA through the DNA-binding domain of vosA that recognizes an 11-nucleotide consensus sequence 5'- CTGGCCGCGGC-3' consisting of two motifs in the promoters of key developmental regulatory genes. The vosA-velB complex binds to the beta-glucan synthase fksA gene promoter in asexua [...] | Conidiophore development regulator abaA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific gene. Controls temporal and spatial specificity in Aspergillus development. Directs the differentiation of phialides and is continuously required for maintenance of their function. Expression of abaA leads to activation of brlA and wetA, cessation of vegetative growth, and accentuated cellular vacuolization. Binds to the sequence 5'-CATT [...] | 0.955 |
vosA | brlA | Q5BBX1 | P10069 | Spore development regulator vosA; Component of the velB-VosA heterodimeric complex that plays a dual role in activating genes associated with spore maturation and repressing certain development-associated genes. Controls primarily the late process of sporulation including trehalose biogenesis. The complex binds DNA through the DNA-binding domain of vosA that recognizes an 11-nucleotide consensus sequence 5'- CTGGCCGCGGC-3' consisting of two motifs in the promoters of key developmental regulatory genes. The vosA-velB complex binds to the beta-glucan synthase fksA gene promoter in asexua [...] | C2H2 type master regulator of conidiophore development brlA; BrlA, abaA and wetA are pivotal regulators of conidiophore development and conidium maturation. They act individually and together to regulate their own expression and that of numerous other sporulation-specific genes. Binds promoters of target genes at brlA response elements (BREs) containing the conserved sequence 5'- (C/A)(A/G)AGGG(G/A)-3'. Controls the expression of the conidiophore-specific phenol oxidase ivoB. Controls the expression of the hydrophobin rodA. Mediates the developmental switch from the indeterminate, apic [...] | 0.954 |