ap proteintech Search Results


mouse anti α tubulin monoclonal antibody  (Proteintech)
96
Proteintech mouse anti α tubulin monoclonal antibody
Mouse Anti α Tubulin Monoclonal Antibody, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/mouse anti α tubulin monoclonal antibody/product/Proteintech
Average 96 stars, based on 1 article reviews
mouse anti α tubulin monoclonal antibody - by Bioz Stars, 2026-03
96/100 stars
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gc bias  (Proteintech)
96
Proteintech gc bias
Gc Bias, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/gc bias/product/Proteintech
Average 96 stars, based on 1 article reviews
gc bias - by Bioz Stars, 2026-03
96/100 stars
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ctcf  (Proteintech)
93
Proteintech ctcf
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Ctcf, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ctcf/product/Proteintech
Average 93 stars, based on 1 article reviews
ctcf - by Bioz Stars, 2026-03
93/100 stars
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recognition  (Proteintech)
93
Proteintech recognition
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Recognition, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/recognition/product/Proteintech
Average 93 stars, based on 1 article reviews
recognition - by Bioz Stars, 2026-03
93/100 stars
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anti gemin5  (Proteintech)
93
Proteintech anti gemin5
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Anti Gemin5, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/anti gemin5/product/Proteintech
Average 93 stars, based on 1 article reviews
anti gemin5 - by Bioz Stars, 2026-03
93/100 stars
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anti mt co2 antibodies  (Proteintech)
96
Proteintech anti mt co2 antibodies
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Anti Mt Co2 Antibodies, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/anti mt co2 antibodies/product/Proteintech
Average 96 stars, based on 1 article reviews
anti mt co2 antibodies - by Bioz Stars, 2026-03
96/100 stars
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vegfa  (Proteintech)
96
Proteintech vegfa
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Vegfa, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/vegfa/product/Proteintech
Average 96 stars, based on 1 article reviews
vegfa - by Bioz Stars, 2026-03
96/100 stars
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anti zhx2  (Proteintech)
93
Proteintech anti zhx2
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Anti Zhx2, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/anti zhx2/product/Proteintech
Average 93 stars, based on 1 article reviews
anti zhx2 - by Bioz Stars, 2026-03
93/100 stars
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alg2 pdcd6  (Proteintech)
94
Proteintech alg2 pdcd6
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Alg2 Pdcd6, supplied by Proteintech, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/alg2 pdcd6/product/Proteintech
Average 94 stars, based on 1 article reviews
alg2 pdcd6 - by Bioz Stars, 2026-03
94/100 stars
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nubp2  (Proteintech)
91
Proteintech nubp2
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Nubp2, supplied by Proteintech, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/nubp2/product/Proteintech
Average 91 stars, based on 1 article reviews
nubp2 - by Bioz Stars, 2026-03
91/100 stars
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proteintech 11802 1 ap iab  (Proteintech)
96
Proteintech proteintech 11802 1 ap iab
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
Proteintech 11802 1 Ap Iab, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/proteintech 11802 1 ap iab/product/Proteintech
Average 96 stars, based on 1 article reviews
proteintech 11802 1 ap iab - by Bioz Stars, 2026-03
96/100 stars
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2 ap  (Proteintech)
96
Proteintech 2 ap
(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show <t>ZFP143-HA</t> <t>ChIP-seq</t> (red), calibrated <t>CTCF</t> ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.
2 Ap, supplied by Proteintech, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/2 ap/product/Proteintech
Average 96 stars, based on 1 article reviews
2 ap - by Bioz Stars, 2026-03
96/100 stars
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Image Search Results


(A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show ZFP143-HA ChIP-seq (red), calibrated CTCF ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.

Journal: bioRxiv

Article Title: ZNF143 is a transcriptional regulator of nuclear-encoded mitochondrial genes that acts independently of looping and CTCF

doi: 10.1101/2024.03.08.583864

Figure Lengend Snippet: (A) Relative contact probability plot (top panel) and its derivative (bottom panel) calculated from the Hi-C matrices of DMSO (blue) and 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. (B) Average cohesin (left), enhancer-promoter (E-P, middle) and promoter-promoter (P-P, right) loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (C) Same as in (B) but for the average ZFP143-associated loops (containing ZFP143 peak in at least one loop anchor). (D) High-resolution 4C-seq data generated for the ZFP143-bound genes Rbm41 (left panel) and Prmt6 (middle panel), and non-ZFP143-bound control gene Sik1 (right panel), using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show ZFP143-HA ChIP-seq (red), calibrated CTCF ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in control and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Tornado plots of ZFP143-HA ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Same as in (E) but for the calibrated CTCF ChIP-seq signal centred at ZFP143-HA peaks.

Article Snippet: After systematically re-analysing the ZNF143 ChIP-seq data, we posit that the Proteintech anti-ZNF143 polyclonal antibody recognises CTCF in addition to ZNF143.

Techniques: Hi-C, Generated, Control, ChIP-sequencing

(A) Average Hi-C loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (B) Same as in (A) but for the average ZFP143-associated Hi-C loops (containing ZFP143 peak in at least one loop anchor). (C) High-resolution 4C-seq data generated for the Cpox and Cldn1 (left panel) and Zfp111 and Zfp108 (right panel) loci using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show ZFP143-HA ChIP-seq (red), calibrated CTCF ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (D) Tornado plots of calibrated CTCF ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Genomic tracks showing ZFP143-HA ChIP-seq (red) in DMSO and calibrated CTCF ChIP-seq (blue) in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Venn diagram showing the overlap between ZFP143-HA (red) and CTCF (blue) peaks.

Journal: bioRxiv

Article Title: ZNF143 is a transcriptional regulator of nuclear-encoded mitochondrial genes that acts independently of looping and CTCF

doi: 10.1101/2024.03.08.583864

Figure Lengend Snippet: (A) Average Hi-C loops in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. Value in the upper-right corner indicates the interaction strength of the loop over the background. (B) Same as in (A) but for the average ZFP143-associated Hi-C loops (containing ZFP143 peak in at least one loop anchor). (C) High-resolution 4C-seq data generated for the Cpox and Cldn1 (left panel) and Zfp111 and Zfp108 (right panel) loci using gene promoters as viewpoints. The matrix in the top panel represents interaction frequencies in a previously published high-resolution Micro-C dataset . The arrows point to detected Micro-C chromatin loops. The bottom panel shows 4C contact profiles in DMSO (blue) and in 6 hours dTAG-V1 (orange) treated ZFP143-FKBP cells. Genomic tracks show ZFP143-HA ChIP-seq (red), calibrated CTCF ChIP-seq (blue), TT-seq nascent transcription (yellow for sense and purple for antisense transcription) in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (D) Tornado plots of calibrated CTCF ChIP-seq signal centred at CTCF peaks in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (E) Genomic tracks showing ZFP143-HA ChIP-seq (red) in DMSO and calibrated CTCF ChIP-seq (blue) in DMSO and 6 hours dTAG-V1 treated ZFP143-FKBP cells. (F) Venn diagram showing the overlap between ZFP143-HA (red) and CTCF (blue) peaks.

Article Snippet: After systematically re-analysing the ZNF143 ChIP-seq data, we posit that the Proteintech anti-ZNF143 polyclonal antibody recognises CTCF in addition to ZNF143.

Techniques: Hi-C, Generated, ChIP-sequencing

(A) Overlap between ZNF143/ZFP143 peaks from re-analysed publicly available data and CTCF peaks from CISTROME for human (left panel) and mouse (right panel) datasets. Box plots for each ZNF143/ZFP143 dataset represent the median overlap with CTCF peaks. Each dot represents the overlap between the indicated ZNF143/ZFP143 peak set with an individual CTCF peak set. Colours represent the antibody used for chromatin immunoprecipitation, as indicated below. (B) Venn diagram showing the overlap between ZNF143 peaks detected by Proteintech (light pink) and FLAG (light green) antibodies in K562 cells. (C) Heatmap showing the enrichment of SBS (i.e. ZNF143) and CTCF motifs in common, Proteintech-specific, and FLAG-specific peaks in K562 cells. (D) Tornado plots of ChIP-seq signals detected by Proteintech (light pink), FLAG (light green), and custom (orange) antibodies, and CTCF signal (blue) in K562 cells. The ChIP-seq signals are centred on common (top) and Proteintech-specific (bottom) peaks. (E) Genomic tracks showing ChIP-seq signals for CTCF (blue) and signals detected by Proteintech (pink), FLAG (light green), and custom12 (orange) antibodies in K562 cells. Rectangles indicate common (left) and Proteintech-specific (middle and right) peaks in the region. (F) Scatter plot of the percentage of loop anchors overlapping the peak (x-axis) against the fold enrichment of peaks in loop anchors (y-axis) for a number of DNA binding proteins and for Proteintech-specific, FLAG-specific and common peaks in K562 cells.

Journal: bioRxiv

Article Title: ZNF143 is a transcriptional regulator of nuclear-encoded mitochondrial genes that acts independently of looping and CTCF

doi: 10.1101/2024.03.08.583864

Figure Lengend Snippet: (A) Overlap between ZNF143/ZFP143 peaks from re-analysed publicly available data and CTCF peaks from CISTROME for human (left panel) and mouse (right panel) datasets. Box plots for each ZNF143/ZFP143 dataset represent the median overlap with CTCF peaks. Each dot represents the overlap between the indicated ZNF143/ZFP143 peak set with an individual CTCF peak set. Colours represent the antibody used for chromatin immunoprecipitation, as indicated below. (B) Venn diagram showing the overlap between ZNF143 peaks detected by Proteintech (light pink) and FLAG (light green) antibodies in K562 cells. (C) Heatmap showing the enrichment of SBS (i.e. ZNF143) and CTCF motifs in common, Proteintech-specific, and FLAG-specific peaks in K562 cells. (D) Tornado plots of ChIP-seq signals detected by Proteintech (light pink), FLAG (light green), and custom (orange) antibodies, and CTCF signal (blue) in K562 cells. The ChIP-seq signals are centred on common (top) and Proteintech-specific (bottom) peaks. (E) Genomic tracks showing ChIP-seq signals for CTCF (blue) and signals detected by Proteintech (pink), FLAG (light green), and custom12 (orange) antibodies in K562 cells. Rectangles indicate common (left) and Proteintech-specific (middle and right) peaks in the region. (F) Scatter plot of the percentage of loop anchors overlapping the peak (x-axis) against the fold enrichment of peaks in loop anchors (y-axis) for a number of DNA binding proteins and for Proteintech-specific, FLAG-specific and common peaks in K562 cells.

Article Snippet: After systematically re-analysing the ZNF143 ChIP-seq data, we posit that the Proteintech anti-ZNF143 polyclonal antibody recognises CTCF in addition to ZNF143.

Techniques: Chromatin Immunoprecipitation, ChIP-sequencing, DNA Binding Assay

(A) Tornado plots of CTCF ChIP-seq signal from two biological replicates in wild-type (WT) and ZNF143-knockout (KO) haematopoietic stem and progenitor cells (HSPC) centred at ZNF143-related (top) and ZNF143-unrelated (bottom) CTCF peaks . (B) Same as in (A) but for the CTCF ChIP-seq signal in HSPC from two orthogonal studies , . (C) Rolling mean of the normalised CTCF motifs scores, annotated for the ZNF143-related (top) and ZNF143-unrelated (bottom) CTCF peaks. (D) Violin plots showing the fraction of ZNF143-related (left) and ZNF143-unrelated (right) CTCF peaks overlapping CTCF peaks from the CISTROME database . (E) GC bias scores calculated for CTCF ChIP-seq data generated from WT and ZNF143-KO HSPC samples . Note the divergence of the first WT CTCF replicate from the rest of the samples. (F) Genomic tracks showing CTCF ChIP-seq signal from two biological replicates in WT and ZNF143-KO HSPC , CTCF ChIP-seq signal from two other HSPC samples , , and GC content. Horizontal bars indicate ZNF143-related and ZNF143-unrelated CTCF peaks . Note the overlap of ZNF143-related peaks with GC-rich regions. (G) Tornado plots of ZNF143 ChIP-nexus signal from control and CTCF-depleted HEC1B cells centred at ZNF143-only (top) and shared ZNF143 and CTCF (bottom) peaks . (H) Genomic tracks showing ZNF143 ChIP-nexus signal from control and CTCF-depleted HEC1B cells . Horizontal bars indicate ZNF143-only and shared ZNF143 and CTCF peaks. Note the specific loss of signal at shared peaks upon CTCF depletion. (I) Venn diagram showing the overlap between ZNF143-CTCF motif pairs located 37 bp apart from each other and SINE/B2 repeat elements in the mouse genome from RepeatMasker. (J) Tornado plots of CTCF and ZNF143 ChIP-seq signal centred at ZNF143-CTCF motif pairs located 37 bp apart from each other .

Journal: bioRxiv

Article Title: ZNF143 is a transcriptional regulator of nuclear-encoded mitochondrial genes that acts independently of looping and CTCF

doi: 10.1101/2024.03.08.583864

Figure Lengend Snippet: (A) Tornado plots of CTCF ChIP-seq signal from two biological replicates in wild-type (WT) and ZNF143-knockout (KO) haematopoietic stem and progenitor cells (HSPC) centred at ZNF143-related (top) and ZNF143-unrelated (bottom) CTCF peaks . (B) Same as in (A) but for the CTCF ChIP-seq signal in HSPC from two orthogonal studies , . (C) Rolling mean of the normalised CTCF motifs scores, annotated for the ZNF143-related (top) and ZNF143-unrelated (bottom) CTCF peaks. (D) Violin plots showing the fraction of ZNF143-related (left) and ZNF143-unrelated (right) CTCF peaks overlapping CTCF peaks from the CISTROME database . (E) GC bias scores calculated for CTCF ChIP-seq data generated from WT and ZNF143-KO HSPC samples . Note the divergence of the first WT CTCF replicate from the rest of the samples. (F) Genomic tracks showing CTCF ChIP-seq signal from two biological replicates in WT and ZNF143-KO HSPC , CTCF ChIP-seq signal from two other HSPC samples , , and GC content. Horizontal bars indicate ZNF143-related and ZNF143-unrelated CTCF peaks . Note the overlap of ZNF143-related peaks with GC-rich regions. (G) Tornado plots of ZNF143 ChIP-nexus signal from control and CTCF-depleted HEC1B cells centred at ZNF143-only (top) and shared ZNF143 and CTCF (bottom) peaks . (H) Genomic tracks showing ZNF143 ChIP-nexus signal from control and CTCF-depleted HEC1B cells . Horizontal bars indicate ZNF143-only and shared ZNF143 and CTCF peaks. Note the specific loss of signal at shared peaks upon CTCF depletion. (I) Venn diagram showing the overlap between ZNF143-CTCF motif pairs located 37 bp apart from each other and SINE/B2 repeat elements in the mouse genome from RepeatMasker. (J) Tornado plots of CTCF and ZNF143 ChIP-seq signal centred at ZNF143-CTCF motif pairs located 37 bp apart from each other .

Article Snippet: After systematically re-analysing the ZNF143 ChIP-seq data, we posit that the Proteintech anti-ZNF143 polyclonal antibody recognises CTCF in addition to ZNF143.

Techniques: ChIP-sequencing, Knock-Out, Generated, Control