Genes altered in major depressive disorder
Genes altered in major depressive disorder
Positive relationships between PCM1 and other components at different levels (count: 0)
Positive relationship network of PCM1 in MK4MDD
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Note:
1. The different color of the nodes denotes the level of the nodes.
Genetic/Epigenetic Locus
Protein and Other Molecule
Cell and Molecular Pathway
Neural System
Cognition and Behavior
Symptoms and Signs
Environment
MDD
2. Besides the component related relationships from literature, gene mapped protein and protein mapped gene are also shown in the network.
If the mapped gene or protein is not from literature, square node would be used instead of Circle node.
Accordingly, the relationship is marked with dot line.
2. User can drag the nodes to rearrange the layout of the network. Click the node will enter the report page of the node.
Right-click will show also the menus to link to the report page of the node and remove the node and related edges.
Hover the node will show the level of the node and hover the edge will show the evidence/description of the edge.
3. The network is generated using Cytoscape Web
Negative relationships between PCM1 and MDD (count: 0)
Negative relationships between PCM1 and other components at different levels (count: 0)
The replication of the genome and the subsequent segregation......
The replication of the genome and the subsequent segregation of chromosomes into daughter cells are controlled by a series of events collectively known as the cell cycle. DNA replication is carried out during a discrete temporal period known as the S (synthesis)-phase, and chromosome segregation occurs during a massive reorganization to cellular architecture at mitosis. Two gap-phases separate these major cell cycle events: G1 between mitosis and S-phase, and G2 between S-phase and mitosis. In the development of the human body, cells can exit the cell cycle for a period and enter a quiescent state known as G0, or terminally differentiate into cells that will not divide again, but undergo morphological development to carry out the wide variety of specialized functions of individual tissues. A family of protein serine/threonine kinases known as the cyclin-dependent kinases (CDKs) controls progression through the cell cycle. As the name suggests, the activity of the catalytic subunit is dependent on binding to a cyclin partner. The human genome encodes several cyclins and several CDKs, with their names largely derived from the order in which they were identified. The oscillation of cyclin abundance is one important mechanism by which these enzymes phosphorylate key substrates to promote events at the relevant time and place. Additional regulatory proteins and post-translational modifications ensure that CDK activity is precisely regulated, frequently confined to a narrow window of activity.More...
Cyclin A can also form complexes with Cdc2 (Cdk1). Together ......
Cyclin A can also form complexes with Cdc2 (Cdk1). Together with three B-type cyclins, Cdc2 (Cdk1) regulates the transition from G2 into mitosis. These complexes are activated by dephosphorylation of T14 and Y15. Cyclin A, B - Cdc2 complexes phosphorylate several proteins involved in mitotic spindle structure and function, the breakdown of the nuclear envelope, and topological changes in chromosomes allowing resolution of their entanglement and condensation that is necessary for the ~2 meters of DNA to be segregated at mitosis.More...
During interphase, Nlp interacts with gamma-tubulin ring com......
During interphase, Nlp interacts with gamma-tubulin ring complexes. Plk1 is activated at the onset of mitosis and phosphorylates Nlp triggering its displacement from the centrosome. Removal of Nlp appears to contribute to the establishment of a mitotic scaffold with enhanced microtubule nucleation activity.More...