Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Tip elongation aberrant protein Tea4; Cell polarity factor essential for the bipolar localization and function of structures containing the cell-end marker tea1 during the normal cell cycle. Regulates cell polarity in complex with tea1 and together with the stress signaling MAPK cascade, contributes to cell polarity maintenance under stress conditions. Required for the localization of for3 at the cell tip specifically during initiation of bipolar growth. During the new end take off (NETO), formation of a protein complex that includes tea1, tea4 and for3 is necessary and sufficient for [...]

Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Tip elongation protein 1; Has a role in stabilizing and targeting the growing tips of the microtubules along the long axis of the cell, directing them to the ends of the cell. Acts as a cargo for tea2.

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Tip elongation aberrant protein Tea4; Cell polarity factor essential for the bipolar localization and function of structures containing the cell-end marker tea1 during the normal cell cycle. Regulates cell polarity in complex with tea1 and together with the stress signaling MAPK cascade, contributes to cell polarity maintenance under stress conditions. Required for the localization of for3 at the cell tip specifically during initiation of bipolar growth. During the new end take off (NETO), formation of a protein complex that includes tea1, tea4 and for3 is necessary and sufficient for [...]

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Tip elongation protein 1; Has a role in stabilizing and targeting the growing tips of the microtubules along the long axis of the cell, directing them to the ends of the cell. Acts as a cargo for tea2.

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Tip elongation aberrant protein Tea4; Cell polarity factor essential for the bipolar localization and function of structures containing the cell-end marker tea1 during the normal cell cycle. Regulates cell polarity in complex with tea1 and together with the stress signaling MAPK cascade, contributes to cell polarity maintenance under stress conditions. Required for the localization of for3 at the cell tip specifically during initiation of bipolar growth. During the new end take off (NETO), formation of a protein complex that includes tea1, tea4 and for3 is necessary and sufficient for [...]

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Tip elongation protein 1; Has a role in stabilizing and targeting the growing tips of the microtubules along the long axis of the cell, directing them to the ends of the cell. Acts as a cargo for tea2.

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Actin-interacting protein 3 homolog; Involved in the organization and/or function of the actin cytoskeleton; To yeast BUD6.

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Formin-3; Involved in controlling polarized cell growth. Required for interphase actin cable formation and microtubule organization. Belongs to the formin homology family.

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Tip elongation aberrant protein 1; Cell polarity protein. Acts as an end marker, directing the growth machinery to the cell poles. Involved in the regulation of microtubular organization, affecting the maintenance of a single central axis. Prevents the curling of microtubule tips around the cell ends and is required for the retention of polarity factors such as pom1, tip1 and tea2 at the cell ends, necessary for the cell to grow in a straight line. Links tip1 and tea4 in a common complex.

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Tip elongation aberrant protein Tea4; Cell polarity factor essential for the bipolar localization and function of structures containing the cell-end marker tea1 during the normal cell cycle. Regulates cell polarity in complex with tea1 and together with the stress signaling MAPK cascade, contributes to cell polarity maintenance under stress conditions. Required for the localization of for3 at the cell tip specifically during initiation of bipolar growth. During the new end take off (NETO), formation of a protein complex that includes tea1, tea4 and for3 is necessary and sufficient for [...]

Kinesin-like protein tea2; Promotes microtubule growth, possibly through interactions with the microtubule end, and is important for establishing and maintaining polarized growth along the long axis of the cell. Acts as a kinesin motor protein that moves along microtubules and is required for proper localization of tea1 and tip1 to the cell tips and microtubules, respectively. ATPase activity stimulated via interaction with mal3. Belongs to the TRAFAC class myosin-kinesin ATPase superfamily. Kinesin family.

Tip elongation protein 1; Has a role in stabilizing and targeting the growing tips of the microtubules along the long axis of the cell, directing them to the ends of the cell. Acts as a cargo for tea2.