Transporter Protein
CC0263


    Transport Function
Transporter Name: CC0263
Transporter Type: Secondary Transporter
Transporter Family: DAACS (TC#: 2.A.23)
The Dicarboxylate/Amino Acid:Cation (Na+ or H+) Symporter (DAACS) Family
Transporter Subfamily: 
Substrate/Function: proton/sodium ion:glutamate
TC#: 
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    Genome Locus
PID:   16124518     Blast
Source:   Caulobacter crescentus CB15
Chromosome:   -
Location:   276384..277637
Gene:   -
Length:  418
Strand:  -
Code:   -
COG:   -
Product:  sodium:dicarboxylate symporter family protein
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    Transmembrane Segment
TMSs: 
TMHMM Server 
Total:     9
TMS 1:  5-27
TMS 2:  47-69
TMS 3:  82-104
TMS 4:  151-168
TMS 5:  189-211
TMS 6:  224-246
TMS 7:  293-315
TMS 8:  325-347
TMS 9:  352-374
Topology:   >CC0263
MNKRFAYLIIASMILGVLVGWTCNQFLDPAGAKSAADNLSIITDIFLRLIKMIIAPLVFTTLVAGVAHME
DAAAVGRIGAKTMTWFIGASAVSLVLGLLMVHLLDPGAGLNMAHVDVAMKTTATTDAFTLKGFITHLVPT
SIFDAMAKNEILQIVVFSLFVGTAVAALDDKAPQILELVEQAAQIMLKVTGFVMKLAPLAIFAALASTIA
TQGLGMLATYGKFVLGFYSAMGVLWALLFIAGLLVLGKRVIPLFGVIRDPVLLAFSTASSEAAYPRILDS
LPKVGVRRRIVSFVLPLGYSFNLDGSMLYCTFATMFIVQAHGVELTVQQQIFMLLLLMVTSKGIAGVPRA
SLVVIMATLTYFGLPEAWIALVLGVDHLLDMGRSATNVVGNSVAAAVVAKWEGELDDIPPEGEAAKA
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    Sequence
Protein Sequence: >CC0263 16124518 sodium:dicarboxylate symporter family protein [Caulobacter crescentus CB15]
MNKRFAYLIIASMILGVLVGWTCNQFLDPAGAKSAADNLSIITDIFLRLIKMIIAPLVFTTLVAGVAHME
DAAAVGRIGAKTMTWFIGASAVSLVLGLLMVHLLDPGAGLNMAHVDVAMKTTATTDAFTLKGFITHLVPT
SIFDAMAKNEILQIVVFSLFVGTAVAALDDKAPQILELVEQAAQIMLKVTGFVMKLAPLAIFAALASTIA
TQGLGMLATYGKFVLGFYSAMGVLWALLFIAGLLVLGKRVIPLFGVIRDPVLLAFSTASSEAAYPRILDS
LPKVGVRRRIVSFVLPLGYSFNLDGSMLYCTFATMFIVQAHGVELTVQQQIFMLLLLMVTSKGIAGVPRA
SLVVIMATLTYFGLPEAWIALVLGVDHLLDMGRSATNVVGNSVAAAVVAKWEGELDDIPPEGEAAKA
DNA Sequence: >CC0263 16124518 sodium:dicarboxylate symporter family protein [Caulobacter crescentus CB15]
ATGAATAAACGCTTCGCCTATCTGATCATCGCCTCGATGATCCTCGGGGTGCTGGTCGGCTGGACCTGCA
ATCAGTTTCTTGACCCGGCCGGCGCCAAGTCGGCCGCGGACAACCTGTCGATCATCACCGACATCTTCCT
GCGCCTGATCAAGATGATCATCGCGCCGCTGGTCTTCACGACCCTGGTGGCCGGCGTCGCGCACATGGAA
GACGCCGCCGCGGTGGGCCGCATCGGCGCAAAGACCATGACCTGGTTCATCGGCGCCTCGGCGGTGTCGC
TGGTGCTGGGCCTTCTGATGGTCCACCTGCTGGATCCGGGCGCGGGCCTGAACATGGCCCATGTCGATGT
GGCGATGAAGACCACGGCGACGACCGACGCCTTCACCCTGAAGGGCTTCATCACCCACCTGGTGCCGACC
TCGATCTTCGACGCCATGGCCAAGAACGAGATCCTGCAGATCGTGGTGTTCTCGCTGTTCGTCGGCACCG
CCGTGGCGGCGCTGGACGACAAAGCCCCGCAGATCCTGGAGCTGGTCGAGCAGGCCGCCCAGATCATGCT
GAAGGTCACCGGCTTTGTGATGAAGCTGGCCCCGCTGGCCATTTTCGCGGCCCTGGCCTCGACGATCGCC
ACCCAGGGCCTGGGCATGCTCGCCACCTACGGCAAGTTCGTGCTGGGCTTCTACTCGGCCATGGGCGTGC
TTTGGGCTTTGCTGTTCATCGCCGGCCTGCTGGTGCTGGGTAAGCGGGTGATCCCCCTGTTCGGCGTGAT
CCGCGATCCGGTGCTGCTGGCCTTCTCGACCGCGAGCTCCGAAGCGGCCTATCCGCGCATTCTCGACAGC
CTGCCCAAGGTGGGCGTGCGCCGCCGGATCGTGTCGTTCGTGCTGCCGCTGGGCTACTCGTTCAACCTCG
ACGGCTCGATGCTGTACTGCACCTTCGCGACGATGTTCATCGTCCAGGCACACGGCGTCGAGCTGACGGT
CCAGCAGCAGATCTTCATGCTGCTGCTGTTGATGGTGACCTCCAAGGGCATCGCCGGCGTGCCGCGCGCC
TCGCTGGTTGTGATCATGGCCACCCTCACCTATTTCGGCCTGCCCGAGGCCTGGATCGCGCTGGTCCTGG
GCGTCGATCACCTGCTGGACATGGGTCGCAGCGCCACCAACGTCGTCGGCAACAGCGTCGCCGCCGCCGT
CGTGGCCAAATGGGAGGGCGAGCTGGACGACATCCCGCCCGAGGGCGAAGCCGCCAAGGCCTGA
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    Publications
Publications on this gene:
1.  Proc Natl Acad Sci U S A 2006 Jul 18; 29(103):10935-40.
A phospho-signaling pathway controls the localization and activity of a protease complex critical for bacterial cell cycle progression.

Iniesta AA ,McGrath PT ,Reisenauer A ,McAdams HH ,Shapiro L ,

Department of Developmental Biology, Stanford University, Stanford, CA 94305, USA.

Temporally and spatially controlled master regulators drive the Caulobacter cell cycle by regulating the expression of >200 genes. Rapid clearance of the master regulator, CtrA, by the ClpXP protease is a critical event that enables the initiation of chromosome replication at specific times in the cell cycle. We show here that a previously unidentified single domain-response regulator, CpdR, when in the unphosphorylated state, binds to ClpXP and, thereby, causes its localization to the cell pole. We further show that ClpXP localization is required for CtrA proteolysis. When CpdR is phosphorylated, ClpXP is delocalized, and CtrA is not degraded. Both CtrA and CpdR are phosphorylated via the same CckA histidine kinase phospho-signaling pathway, providing a reinforcing mechanism that simultaneously activates CtrA and prevents its degradation by delocalizing the CpdR/ClpXP complex. In swarmer cells, CpdR is in the phosphorylated state, thus preventing ClpXP localization and CtrA degradation. As swarmer cells differentiate into stalked cells (G1/S transition), unphosphorylated CpdR accumulates and is localized to the stalked cell pole, where it enables ClpXP localization and CtrA proteolysis, allowing the initiation of DNA replication. Dynamic protease localization mediated by a phospho-signaling pathway is a novel mechanism to integrate spatial and temporal control of bacterial cell cycle progression.

Publication Type: Research Support, N.I.H., Extramural; Research Support, U.S. Gov't, Non-P.H.S.;
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    External Links

   TIGR CMRTHE SEEDThe SEED  
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    NBCI Gene Page
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