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βactin superarray commercial q-pcr primers  (SuperArray Bioscience Corporation)

 
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    SuperArray Bioscience Corporation βactin superarray commercial q-pcr primers
    Role of Tif-1γ/Smad4-independent signaling in the control of iNKT maturation. (A) tgf-b receptor expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from 16-d-old C57BL/6 mice. Relative gene expression are normalized on both hprt and g3pdh expression. (B) Flow cytometric analysis of CD1d-αGalCer tetramer + cells from iNKT cell-enriched thymocytes of C57BL/6 mice, stained for TGF-βRII. Means of fluorescence intensity (MFI) are reported with their SD. (C) jun-b , p21 , pme-pai expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from C57BL/6 mice. Relative gene expression was normalized on <t>βactin</t> expression. The results are representative of three different experiments from five to eight mice. (D) Flow cytometric analysis of the presence of iNKT cells in thymuses from either 13–14-d-old CD4-Cre x Tif-1γ fl/fl x Smad4 fl/fl mice or wild-type littermate mice and staining for CD44 and NK1.1 on CD1d-αGalCer tetramer + cells from the same thymuses. Absolute numbers of CD1d-αGalCer tetramer + cells among HSA low cells are illustrated by graphs, and absolute numbers for each development stage are illustrated in Table S1. The results are representative of three different experiments with at least three mice per group.
    βactin Superarray Commercial Q Pcr Primers, supplied by SuperArray Bioscience Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/βactin superarray commercial q-pcr primers/product/SuperArray Bioscience Corporation
    Average 90 stars, based on 1 article reviews
    βactin superarray commercial q-pcr primers - by Bioz Stars, 2026-04
    90/100 stars

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    1) Product Images from "iNKT cell development is orchestrated by different branches of TGF-β signaling"

    Article Title: iNKT cell development is orchestrated by different branches of TGF-β signaling

    Journal: The Journal of Experimental Medicine

    doi: 10.1084/jem.20090127

    Role of Tif-1γ/Smad4-independent signaling in the control of iNKT maturation. (A) tgf-b receptor expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from 16-d-old C57BL/6 mice. Relative gene expression are normalized on both hprt and g3pdh expression. (B) Flow cytometric analysis of CD1d-αGalCer tetramer + cells from iNKT cell-enriched thymocytes of C57BL/6 mice, stained for TGF-βRII. Means of fluorescence intensity (MFI) are reported with their SD. (C) jun-b , p21 , pme-pai expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from C57BL/6 mice. Relative gene expression was normalized on βactin expression. The results are representative of three different experiments from five to eight mice. (D) Flow cytometric analysis of the presence of iNKT cells in thymuses from either 13–14-d-old CD4-Cre x Tif-1γ fl/fl x Smad4 fl/fl mice or wild-type littermate mice and staining for CD44 and NK1.1 on CD1d-αGalCer tetramer + cells from the same thymuses. Absolute numbers of CD1d-αGalCer tetramer + cells among HSA low cells are illustrated by graphs, and absolute numbers for each development stage are illustrated in Table S1. The results are representative of three different experiments with at least three mice per group.
    Figure Legend Snippet: Role of Tif-1γ/Smad4-independent signaling in the control of iNKT maturation. (A) tgf-b receptor expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from 16-d-old C57BL/6 mice. Relative gene expression are normalized on both hprt and g3pdh expression. (B) Flow cytometric analysis of CD1d-αGalCer tetramer + cells from iNKT cell-enriched thymocytes of C57BL/6 mice, stained for TGF-βRII. Means of fluorescence intensity (MFI) are reported with their SD. (C) jun-b , p21 , pme-pai expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from C57BL/6 mice. Relative gene expression was normalized on βactin expression. The results are representative of three different experiments from five to eight mice. (D) Flow cytometric analysis of the presence of iNKT cells in thymuses from either 13–14-d-old CD4-Cre x Tif-1γ fl/fl x Smad4 fl/fl mice or wild-type littermate mice and staining for CD44 and NK1.1 on CD1d-αGalCer tetramer + cells from the same thymuses. Absolute numbers of CD1d-αGalCer tetramer + cells among HSA low cells are illustrated by graphs, and absolute numbers for each development stage are illustrated in Table S1. The results are representative of three different experiments with at least three mice per group.

    Techniques Used: Control, Expressing, Reverse Transcription Polymerase Chain Reaction, Purification, Gene Expression, Staining, Fluorescence



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    βactin superarray commercial q-pcr primers  (SuperArray Bioscience Corporation)
    90
    SuperArray Bioscience Corporation βactin superarray commercial q-pcr primers
    Role of Tif-1γ/Smad4-independent signaling in the control of iNKT maturation. (A) tgf-b receptor expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from 16-d-old C57BL/6 mice. Relative gene expression are normalized on both hprt and g3pdh expression. (B) Flow cytometric analysis of CD1d-αGalCer tetramer + cells from iNKT cell-enriched thymocytes of C57BL/6 mice, stained for TGF-βRII. Means of fluorescence intensity (MFI) are reported with their SD. (C) jun-b , p21 , pme-pai expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from C57BL/6 mice. Relative gene expression was normalized on <t>βactin</t> expression. The results are representative of three different experiments from five to eight mice. (D) Flow cytometric analysis of the presence of iNKT cells in thymuses from either 13–14-d-old CD4-Cre x Tif-1γ fl/fl x Smad4 fl/fl mice or wild-type littermate mice and staining for CD44 and NK1.1 on CD1d-αGalCer tetramer + cells from the same thymuses. Absolute numbers of CD1d-αGalCer tetramer + cells among HSA low cells are illustrated by graphs, and absolute numbers for each development stage are illustrated in Table S1. The results are representative of three different experiments with at least three mice per group.
    βactin Superarray Commercial Q Pcr Primers, supplied by SuperArray Bioscience Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/βactin superarray commercial q-pcr primers/product/SuperArray Bioscience Corporation
    Average 90 stars, based on 1 article reviews
    βactin superarray commercial q-pcr primers - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

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    Role of Tif-1γ/Smad4-independent signaling in the control of iNKT maturation. (A) tgf-b receptor expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from 16-d-old C57BL/6 mice. Relative gene expression are normalized on both hprt and g3pdh expression. (B) Flow cytometric analysis of CD1d-αGalCer tetramer + cells from iNKT cell-enriched thymocytes of C57BL/6 mice, stained for TGF-βRII. Means of fluorescence intensity (MFI) are reported with their SD. (C) jun-b , p21 , pme-pai expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from C57BL/6 mice. Relative gene expression was normalized on βactin expression. The results are representative of three different experiments from five to eight mice. (D) Flow cytometric analysis of the presence of iNKT cells in thymuses from either 13–14-d-old CD4-Cre x Tif-1γ fl/fl x Smad4 fl/fl mice or wild-type littermate mice and staining for CD44 and NK1.1 on CD1d-αGalCer tetramer + cells from the same thymuses. Absolute numbers of CD1d-αGalCer tetramer + cells among HSA low cells are illustrated by graphs, and absolute numbers for each development stage are illustrated in Table S1. The results are representative of three different experiments with at least three mice per group.

    Journal: The Journal of Experimental Medicine

    Article Title: iNKT cell development is orchestrated by different branches of TGF-β signaling

    doi: 10.1084/jem.20090127

    Figure Lengend Snippet: Role of Tif-1γ/Smad4-independent signaling in the control of iNKT maturation. (A) tgf-b receptor expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from 16-d-old C57BL/6 mice. Relative gene expression are normalized on both hprt and g3pdh expression. (B) Flow cytometric analysis of CD1d-αGalCer tetramer + cells from iNKT cell-enriched thymocytes of C57BL/6 mice, stained for TGF-βRII. Means of fluorescence intensity (MFI) are reported with their SD. (C) jun-b , p21 , pme-pai expression analysis by RT-PCR performed on purified CD1d-αGalCer thymocytes from C57BL/6 mice. Relative gene expression was normalized on βactin expression. The results are representative of three different experiments from five to eight mice. (D) Flow cytometric analysis of the presence of iNKT cells in thymuses from either 13–14-d-old CD4-Cre x Tif-1γ fl/fl x Smad4 fl/fl mice or wild-type littermate mice and staining for CD44 and NK1.1 on CD1d-αGalCer tetramer + cells from the same thymuses. Absolute numbers of CD1d-αGalCer tetramer + cells among HSA low cells are illustrated by graphs, and absolute numbers for each development stage are illustrated in Table S1. The results are representative of three different experiments with at least three mice per group.

    Article Snippet: The primers used are as follows: hprt , 5′-TCATTATGCCGAGGATTTGGA-3′ and 5′-CAGAGGGCCACAATGTGATG-3′; g3pdh , 5′-GCATGGCCTTCCGTGTCC-3′ and 5′-TGTCATCATACTTGGCAGGTTTCT-3′; tgfβRI , 5′-CAGACGAAGCAGACTGGACCAG-3′ and 5′-TGCTGCAATCAGGACCACTGC-3′; tgfβRII , 5′-GAAGAATACACCACCAGCAGTC-3′ ανδ 5′-ATGATGACAGCTATGGCAATCC-3′; p38 , 5′-ACCTAAAGCCCAGCAACCTAGC-3′ and 5′-GGTAGCCACGTAGCCTGTCATC-3′; mek1 , 5′-AACTGGGAGCTGGCAACGG-3′ and 5′-TGCGGGTTTGATCTCCAGGTG-3′; erk , 5′-GCTGACTCCAAAGCTCTGGATTTAC-3′ and 5′-CTCCTTAGGTAAGTCGTCCAACTCC-3′; p21 , 5′-TTGCACTCTGGTGTCTGAGC-3′ and 5′-GGGCACTTCAGGGTTTTCTC-3′; junB , 5′-GACGACCTGCACAAGATGAA-3′ and 5′-TGCTGAGGTTGGTGTAGACG-3′; pmepai , 5′-CAGGAGGAGAGACGATGGAC-3′ and 5′-AGGTAGGGGTAGGTGGGTTG-3′; and βactin SuperArray commercial Q-PCR primers.

    Techniques: Control, Expressing, Reverse Transcription Polymerase Chain Reaction, Purification, Gene Expression, Staining, Fluorescence