Identifiers and Description

Gene Model Identifier

TTHERM_00558350

Standard Name

IGR1 (Induced during Granule Regeneration)

Aliases

PreTt07932 | 73.m00176 | 3735.m00070

Description

IGR1 hypothetical protein; Dense core granule (DCG) protein; induced during DCG regeneration- function unknown; non-architectural cargo protein that localizes to and is secreted from DCGs during regulated exocytosis; not required for DCG lattice assembly

Genome Browser (Macronucleus)



Genome Browser (Micronucleus)

External Links

Gene Ontology Annotations

Cellular Component

Biological Process

Domains

No Data fetched for Domains

Gene Expression Profile

Vegetative Cell Cycle (Zhang et al., 2023)

GeneMania

Tetrahymena Stock Center

No Data fetched for Tetrahymena Stock Center

Homologs

Source Identifier Score
Stentor Coeruleus SteCoe_10321 0
Description: None
Tetrahymena borealis EI9_17147.1 2.000808864924972e-124
Description: hypothetical protein (311 aa)
Tetrahymena borealis EI9_13904.1 2.000808864924972e-124
Description: cyclic nucleotide-binding domain-containing protein (1377 aa)

General Information

No Data fetched for General Information

Associated Literature

  1. Ref:16014006: Bowman GR, Smith DG, Michael Siu KW, Pearlman RE, Turkewitz AP (2005) Genomic and proteomic evidence for a second family of dense core granule cargo proteins in Tetrahymena thermophila. The Journal of eukaryotic microbiology 52(4):291-7
  2. Ref:12456006: Haddad A, Bowman GR, Turkewitz AP (2002) New class of cargo protein in Tetrahymena thermophila dense core secretory granules. Eukaryotic cell 1(4):583-93
  3. Ref:11779800: Bowman GR, Turkewitz AP (2001) Analysis of a mutant exhibiting conditional sorting to dense core secretory granules in Tetrahymena thermophila. Genetics 159(4):1605-16

Sequences

>TTHERM_00558350(coding)
ATGAGAAAGATCATTCTTTTGTTAGCTATCATTAGTTTGGCACTCTGCTAAGAACTTATA
GTTGAAAAAGTAGCAGGATAATACAACTCAGGTTAAAAGTTCGCAAAATCCTGGTAAAAT
TCATAATGGAACGATTATCAAGATTTCGCTATTTATGGATGGTTTAAGATTGACTCTTCA
TACTAAATTGCTGAGTGGTCAACTGGTTTCCACTTTACTTCAAATTAGGACAAAGATTGG
ACTAACGCCTCTGCTCCTGGTGATAGAGTATTGGCATTCTGGGTTATTGGAAATACTCTC
CACAATCCTACTTACTCTTTAGCAAGAGGTAATACTAATTATTACGAAAATCTTTCCTTC
GCTGCTGGAGATACTAATAAATGGGCTTTTATTTATGTTACACATGGTTCTAGCTAATAA
GCATAATACGTCTATTACTTACTTCCTTCCTCTGGTGTTGTAACCAAGAAAATAGCTTCA
ATCACTCATAAAACTTCCACCTTCTATCAAATCAATGTTGGTTAATCATTCAGCTTCAAA
TATTTCCCTGGTTCTTTTTGGAGACTCTCACTTATTGCTGGACCTAATGCTTACAGAGAA
AGTGGTTTTGAATAGTTCTAAAACATATAACCTGACGTTGTTCCTAGCTGTCCTATTCTT
TTCACTGGATGTAACTATAGTGGTAAGGGTGATTCTTTATGCTAAAGCTCTCCTTCTTAT
AACGTTACTGCTGTTCACTCAATCTACCTCCCTGCTAACTTCACTGCTACTTTACATGAT
CAAGCTAATTACGCAGGAAAGAAGATCGTTTATTCCCAAAGTATTGAATGTATTACCTAA
TTAAATTGGGCTTACTTACTCTCTACTCATGCCATTACTATTGAGGATGAAACTAAAACT
GTTCTCAGAAGAAACAACAGAAGAAATTGA


>TTHERM_00558350(gene)
ATGAGAAAGATCATTCTTTTGTTAGCTATCATTAGTTTGGCACTCTGCTAAGAACTTATA
GTTGAAAAAGTAGCAGGATAATACAACTCAGGTTAAAAGTTCGCAAAATCCTGGTAAAAT
TCATAATGGAACGATTATCAAGATTTCGCTATTTATGGATGGTTTAAGATTGACTCTTCA
TACTAAATTGCTGAGTGGTCAACTGGTTTCCACTTTACTTCAAATTAGGACAAAGATTGG
ACTAACGCCTCTGCTCCTGGTGATAGAGTATTGGCATTCTGGGTTATTGGAAATACTCTC
CACAATCCTACTTACTCTTTAGCAAGAGGTAATACTAATTATTACGAAAATCTTTCCTTC
GCTGCTGGAGATACTAATAAATGGGCTTTTATTTATGTTACACATGGTTCTAGCTAATAA
GCATAATACGTCTATTACTTACTTCCTTCCTCTGGTGTTGTAACCAAGAAAATAGCTTCA
ATCACTCATAAAACTTCCACCTTCTATCAAATCAATGTTGGTTAATCATTCAGCTTCAAA
TATTTCCCTGGTTCTTTTTGGAGACTCTCACTTATTGCTGGACCTAATGCTTACAGAGAA
AGTGGTTTTGAATAGTTCTAAAACATATAACCTGACGTTGTTCCTAGCTGTCCTATTCTT
TTCACTGGATGTAACTATAGTGGTAAGGGTGATTCTTTATGCTAAAGCTCTCCTTCTTAT
AACGTTACTGCTGTTCACTCAATCTACCTCCCTGCTAACTTCACTGCTACTTTACATGAT
CAAGCTAATTACGCAGGAAAGAAGATCGTTTATTCCCAAAGTATTGAATGTATTACCTAA
TTAAATTGGGCTTACTTACTCTCTACTCATGCCATTACTATTGAGGATGAAACTAAAACT
GTTCTCAGAAGAAACAACAGAAGAAATTGA


>TTHERM_00558350(protein)
MRKIILLLAIISLALCQELIVEKVAGQYNSGQKFAKSWQNSQWNDYQDFAIYGWFKIDSS
YQIAEWSTGFHFTSNQDKDWTNASAPGDRVLAFWVIGNTLHNPTYSLARGNTNYYENLSF
AAGDTNKWAFIYVTHGSSQQAQYVYYLLPSSGVVTKKIASITHKTSTFYQINVGQSFSFK
YFPGSFWRLSLIAGPNAYRESGFEQFQNIQPDVVPSCPILFTGCNYSGKGDSLCQSSPSY
NVTAVHSIYLPANFTATLHDQANYAGKKIVYSQSIECITQLNWAYLLSTHAITIEDETKT
VLRRNNRRN