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Displaying 5 of 5 results for "CARNS1"
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  1. CRNS1_CHICK UniProt:Swiss-Prot

    ID: D3KCC4

    Description: Carnosine synthase 1 ATP-grasp ATP Manganese 1 Manganese 1

  2. Suppression of breast tumor growth and metastasis by an engineered transcription factor ArrayExpress

    ID: E-GEOD-27842

    Description: ormally expressed in the neural system, including CARNS1, SLC8A2 and DACT3. In addition, ATF-126 and Maspin cDNA induction led to the re-activation of tumor suppressive miRNAs also expressed in neural cells, such as miR-1 and miR-34, and to the down-regulation of potential oncogenic miRNAs, such as miR-10b, miR-124, and miR-363. As expected from its over-representation in ER+ tumors, the ATF-126-gene signature predicted favorable prognosis for breast cancer patients. Our results describe for the first time an ATF able to reduce tumor growth and metastatic colonization by epigenetic reactivation of a dormant, normal-like, and more differentiated gene program. A total of six cell lines were used for gene expression analyses: CONTROL –DOX, CONTROL +DOX, ATF-126 –DOX, ATF-126 +DOX (all with 3 technical replicates), p-RetoX-Tight-Maspin –DOX, and p-RetoX-Tight-Maspin +DOX (with 2 technical replicates). For each cell line, total RNA was purified, amplified, labeled, and hybridized [46] using Agilent Agilent 4X44K oligo microarrays (Agilent Technologies, United States). The probes/genes were filtered by requiring the lowest normalized intensity values in both –DOX and +DOX samples to be >10. The normalized log2 ratios (Cy5 sample/Cy3 control) of probes mapping to the same gene were averaged to generate independent expression estimates. We also used available microarrays from the breast cancer cell lines [21], the UNC337-patient [20], the MERGE 550-patient dataset [47] and the NKI (295 patients [48,49]). All microarray cluster analyses w...

  3. Suppression of breast tumor growth and metastasis by an engineered transcription factor BioProject

    ID: PRJNA138039

    Keywords: Transcriptome or Gene expression

    Access Type: download

    dataset.description: ormally expressed in the neural system, including CARNS1, SLC8A2 and DACT3. In addition, ATF-126 and Maspin cDNA induction led to the re-activation of tumor suppressive miRNAs also expressed in neural cells, such as miR-1 and miR-34, and to the down-regulation of potential oncogenic miRNAs, such as miR-10b, miR-124, and miR-363. As expected from its over-representation in ER+ tumors, the ATF-126-gene signature predicted favorable prognosis for breast cancer patients. Our results describe for the first time an ATF able to reduce tumor growth and metastatic colonization by epigenetic reactivation of a dormant, normal-like, and more differentiated gene program. Overall design: A total of six cell lines were used for gene expression analyses: CONTROL –DOX, CONTROL +DOX, ATF-126 –DOX, ATF-126 +DOX (all with 3 technical replicates), p-RetoX-Tight-Maspin –DOX, and p-RetoX-Tight-Maspin +DOX (with 2 technical replicates). For each cell line, total RNA was purified, amplified, labeled, and hybridized [46] using Agilent Agilent 4X44K oligo microarrays (Agilent Technologies, United States). The probes/genes were filtered by requiring the lowest normalized intensity values in both –DOX and +DOX samples to be >10. The normalized log2 ratios (Cy5 sample/Cy3 control) of probes mapping to the same gene were averaged to generate independent expression estimates. We also used available microarrays from the breast cancer cell lines [21], the UNC337-patient [20], the MERGE 550-patient dataset [47] and the NKI (295 patients [48,49]). All microarray cl...
  4. Suppression of breast tumor growth and metastasis by an engineered transcription factor OmicsDI

    ID: E-GEOD-27842

    Date Released: 05-02-2014

    Description: ormally expressed in the neural system, including CARNS1, SLC8A2 and DACT3. In addition, ATF-126 and Maspin cDNA induction led to the re-activation of tumor suppressive miRNAs also expressed in neural cells, such as miR-1 and miR-34, and to the down-regulation of potential oncogenic miRNAs, such as miR-10b, miR-124, and miR-363. As expected from its over-representation in ER+ tumors, the ATF-126-gene signature predicted favorable prognosis for breast cancer patients. Our results describe for the first time an ATF able to reduce tumor growth and metastatic colonization by epigenetic reactivation of a dormant, normal-like, and more differentiated gene program. A total of six cell lines were used for gene expression analyses: CONTROL –DOX, CONTROL +DOX, ATF-126 –DOX, ATF-126 +DOX (all with 3 technical replicates), p-RetoX-Tight-Maspin –DOX, and p-RetoX-Tight-Maspin +DOX (with 2 technical replicates). For each cell line, total RNA was purified, amplified, labeled, and hybridized [46] using Agilent Agilent 4X44K oligo microarrays (Agilent Technologies, United States). The probes/genes were filtered by requiring the lowest normalized intensity values in both –DOX and +DOX samples to be >10. The normalized log2 ratios (Cy5 sample/Cy3 control) of probes mapping to the same gene were averaged to generate independent expression estimates. We also used available microarrays from the breast cancer cell lines [21], the UNC337-patient [20], the MERGE 550-patient dataset [47] and the NKI (295 patients [48,49]). All microarray cluster analyses w...

  5. 109 Metabolomics

    Study Name: High insulin combined with essential amino acids stimulates skeletal muscleprotein synthesis while decreasing insulin sensitivity in healthy humans

    Grant ID: U01 DK097430-01

    Grant: 5T32DK007352, 5R01DK041973, UL1 TR000135, U24DK100469

    study.usesReagent.material.name: Hydroxylysine 1

Displaying 5 of 5 results for "CARNS1"