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cardiac cell development
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GO_0055006 |
[The process whose specific outcome is the progression of a cardiac cell over time, from its formation to the mature state. A cardiac cell is a cell that will form part of the cardiac organ of an individual.] |
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ventricular cardiac muscle tissue morphogenesis
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GO_0055010 |
[The process in which the anatomical structures of cardiac ventricle muscle is generated and organized.] |
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cardiac muscle tissue morphogenesis
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GO_0055008 |
[The process in which the anatomical structures of cardiac muscle tissue are generated and organized.] |
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atrial cardiac muscle cell differentiation
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GO_0055011 |
[The process in which a relatively unspecialized cell acquires specialized features of a cardiac muscle cell in the atrium. Cardiac muscle cells are striated muscle cells that are responsible for heart contraction. The atrium is the part of the heart that receives blood into the organ.] |
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micronucleus
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GO_0031040 |
[A membrane-bounded organelle of ciliated protozoan cells that contains a diploid copy of the cell's complete genome. Sections of contiguous sequence in the macronucleus are often interrupted by internal eliminated sequences (IES), and may be permuted, in micronuclei. Genic transcription is not found in micronuclei. Some ciliate species may contain multiple micronuclei per cell.] |
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actin filament bundle distribution
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GO_0070650 |
[Any cellular process that establishes the spatial arrangement of actin filament bundles within the cell.] |
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actin filament bundle organization
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GO_0061572 |
[A process that results in the assembly, arrangement of constituent parts, or disassembly of an actin filament bundle.] |
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nonfunctional rRNA decay
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GO_0070651 |
[An rRNA catabolic process that results in the targeted detection and degradation of aberrant rRNAs contained within translationally defective ribosomes, thereby acting as a quality-control system.] |
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rRNA catabolic process
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GO_0016075 |
[The chemical reactions and pathways resulting in the breakdown of rRNA, ribosomal RNA, a structural constituent of ribosomes.] |
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HAUS complex
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GO_0070652 |
[A protein complex that localizes to interphase centrosomes and to mitotic spindle tubules and regulates mitotic spindle assembly and centrosome integrity; in human, the complex consists of eight subunits, some of which are homologous to subunits of the Drosophila Augmin complex.] |
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high-density lipoprotein particle receptor binding
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GO_0070653 |
[Binding to a high-density lipoprotein receptor.] |
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lipoprotein particle receptor binding
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GO_0070325 |
[Binding to a lipoprotein particle receptor.] |
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sensory epithelium regeneration
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GO_0070654 |
[The regrowth of a sensory epithelium following its loss or destruction.] |
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regulation of antipodal cell differentiation
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GO_0045688 |
[Any process that modulates the frequency, rate or extent of antipodal cell differentiation.] |
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mechanosensory epithelium regeneration
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GO_0070655 |
[The regrowth of lost or destroyed mechanosensory epithelia.] |
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regulation of cardiac muscle fiber development
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GO_0055018 |
[Any process that modulates the frequency, rate or extent of cardiac muscle fiber development.] |
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negative regulation of antipodal cell differentiation
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GO_0045689 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of antipodal cell differentiation.] |
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negative regulation of cardiac muscle fiber development
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GO_0055019 |
[Any process that stops, prevents, or reduces the frequency, rate or extent of cardiac muscle fiber development.] |
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programmed DNA elimination
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GO_0031049 |
[A process in which genomic fragments or entire chromosomes are eliminated from somatic cells or from micronuclei of ciliates. This process occurs in the developing macronucleus (anlage) of a ciliate, as well as in other species, including vertebrates and is an irreversible mechanism of gene silencing.] |
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neuromast regeneration
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GO_0070657 |
[The regrowth of a neuromast following its loss or destruction.] |
