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AXH domain family
CTD Chemicals (CC)
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CC term |
FDR (all) |
SDCC (four levels) |
Annotation (direct or inherited) |
| CTD Chemicals (CC) | Heterocyclic Compounds, 1-Ring | 0 | -- | Direct |
| CTD Chemicals (CC) | Pyrenes | 0 | -- | Direct |
| CTD Chemicals (CC) | Heterocyclic Compounds, Fused-Ring | 0 | -- | Direct |
| CTD Chemicals (CC) | Toxins, Biological | 0 | -- | Direct |
| CTD Chemicals (CC) | Indole Alkaloids | 0 | -- | Direct |
| CTD Chemicals (CC) | Heterocyclic Compounds | 0 | -- | Direct |
| CTD Chemicals (CC) | Pyrans | 0 | -- | Direct |
| CTD Chemicals (CC) | Polycyclic Compounds | 0 | -- | Direct |
| CTD Chemicals (CC) | Carboxylic Acids | 0 | -- | Direct |
| CTD Chemicals (CC) | Fatty Acids, Volatile | 0 | -- | Direct |
| CTD Chemicals (CC) | Lipids | 0 | -- | Direct |
| CTD Chemicals (CC) | Pentanoic Acids | 0 | -- | Direct |
| CTD Chemicals (CC) | Transition Elements | 0 | -- | Direct |
| CTD Chemicals (CC) | Metals, Heavy | 0 | -- | Direct |
| CTD Chemicals (CC) | Hydrocarbons, Cyclic | 0 | -- | Direct |
| CTD Chemicals (CC) | Heterocyclic Compounds, 2-Ring | 0 | -- | Direct |
| CTD Chemicals (CC) | Valproic Acid | 0 | -- | Direct |
| CTD Chemicals (CC) | Hydrocarbons, Aromatic | 0 | -- | Direct |
| CTD Chemicals (CC) | Mycotoxins | 0 | -- | Direct |
| CTD Chemicals (CC) | Acids, Acyclic | 0 | -- | Direct |
| CTD Chemicals (CC) | Inorganic Chemicals | 0 | -- | Direct |
| CTD Chemicals (CC) | Fatty Acids | 0 | -- | Direct |
| CTD Chemicals (CC) | Carbamates | 0 | -- | Direct |
| CTD Chemicals (CC) | Organic Chemicals | 0 | -- | Direct |
| CTD Chemicals (CC) | Hydrocarbons | 0 | -- | Direct |
| CTD Chemicals (CC) | Elements | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Polycyclic Aromatic Hydrocarbons | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Valerates | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Biological Factors | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Indoles | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Metals | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Electrolytes | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Sulfur Compounds | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Acids | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Benzopyrans | 0 | Least Informative | Direct |
| CTD Chemicals (CC) | Aflatoxins | 0 | Moderately Informative | Direct |
| CTD Chemicals (CC) | Benzopyrenes | 0 | Moderately Informative | Direct |
| CTD Chemicals (CC) | Alkaloids | 0 | Moderately Informative | Direct |
| CTD Chemicals (CC) | Aldehydes | 0 | Moderately Informative | Direct |
| CTD Chemicals (CC) | Dihydroxydihydrobenzopyrenes | 0 | Informative | Direct |
| CTD Chemicals (CC) | 7,8-Dihydro-7,8-dihydroxybenzo(a)pyrene 9,10-oxide | 0 | Highly Informative | Direct |
| CTD Chemicals (CC) | abrine | 0 | Highly Informative | Direct |
LINKTO: Domain2BO Download and Domain2BO Algorithm
Plot distribution on species Tree Of Life (sTOL) for this domain, i.e., present or absent across genomes/tips
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Plot tree as:
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Download Newick format tree:
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Browsing in TREE OF LIFE:
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( show help)
Trees by TreeVector
A presence/absence matrix is generated using protein domain
architecture data for all genomes in SUPERFAMILY. The PAUP
software is used to produce a single, large tree topology using
heuristic parsimony methods. Genome combinations, or specific clades, can be displayed as
if individual trees had been produced. However, this data is extracted from the single
large tree. This produces a higher quality topology than if the trees had been produced
on their own, and allows the trees to be displayed instantly.
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