fa 11 Search Results


fmoc r 3 amino 3  (Chem Impex International)
95
Chem Impex International fmoc r 3 amino 3
Fmoc R 3 Amino 3, supplied by Chem Impex International, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/fmoc r 3 amino 3/product/Chem Impex International
Average 95 stars, based on 1 article reviews
fmoc r 3 amino 3 - by Bioz Stars, 2026-03
95/100 stars
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cd68  (Novus Biologicals)
94
Novus Biologicals cd68
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Cd68, supplied by Novus Biologicals, 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/cd68/product/Novus Biologicals
Average 94 stars, based on 1 article reviews
cd68 - by Bioz Stars, 2026-03
94/100 stars
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synthesis  (Chem Impex International)
96
Chem Impex International synthesis
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Synthesis, supplied by Chem Impex International, 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/synthesis/product/Chem Impex International
Average 96 stars, based on 1 article reviews
synthesis - by Bioz Stars, 2026-03
96/100 stars
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palmitic acid  (Chem Impex International)
95
Chem Impex International palmitic acid
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Palmitic Acid, supplied by Chem Impex International, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/palmitic acid/product/Chem Impex International
Average 95 stars, based on 1 article reviews
palmitic acid - by Bioz Stars, 2026-03
95/100 stars
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cortisone  (Valiant Co Ltd)
86
Valiant Co Ltd cortisone
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Cortisone, supplied by Valiant Co Ltd, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/cortisone/product/Valiant Co Ltd
Average 86 stars, based on 1 article reviews
cortisone - by Bioz Stars, 2026-03
86/100 stars
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fa 45 30 11 rotor  (Eppendorf AG)
93
Eppendorf AG fa 45 30 11 rotor
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Fa 45 30 11 Rotor, supplied by Eppendorf AG, 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/fa 45 30 11 rotor/product/Eppendorf AG
Average 93 stars, based on 1 article reviews
fa 45 30 11 rotor - by Bioz Stars, 2026-03
93/100 stars
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lauric acid  (Chem Impex International)
96
Chem Impex International lauric acid
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Lauric Acid, supplied by Chem Impex International, 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/lauric acid/product/Chem Impex International
Average 96 stars, based on 1 article reviews
lauric acid - by Bioz Stars, 2026-03
96/100 stars
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fa 4518 11 rotor  (Eppendorf AG)
99
Eppendorf AG fa 4518 11 rotor
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Fa 4518 11 Rotor, supplied by Eppendorf AG, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/fa 4518 11 rotor/product/Eppendorf AG
Average 99 stars, based on 1 article reviews
fa 4518 11 rotor - by Bioz Stars, 2026-03
99/100 stars
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stearic acid  (Chem Impex International)
95
Chem Impex International stearic acid
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Stearic Acid, supplied by Chem Impex International, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/stearic acid/product/Chem Impex International
Average 95 stars, based on 1 article reviews
stearic acid - by Bioz Stars, 2026-03
95/100 stars
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methyl salicylate  (Chem Impex International)
95
Chem Impex International methyl salicylate
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Methyl Salicylate, supplied by Chem Impex International, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/methyl salicylate/product/Chem Impex International
Average 95 stars, based on 1 article reviews
methyl salicylate - by Bioz Stars, 2026-03
95/100 stars
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alexa flour 647 anti rat cd68 sr d1  (Novus Biologicals)
92
Novus Biologicals alexa flour 647 anti rat cd68 sr d1
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Alexa Flour 647 Anti Rat Cd68 Sr D1, supplied by Novus Biologicals, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/alexa flour 647 anti rat cd68 sr d1/product/Novus Biologicals
Average 92 stars, based on 1 article reviews
alexa flour 647 anti rat cd68 sr d1 - by Bioz Stars, 2026-03
92/100 stars
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phagocyte marker cd68  (Novus Biologicals)
93
Novus Biologicals phagocyte marker cd68
Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker <t>(CD68,</t> in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or <t>CD68</t> alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals <t>#NBP2-33337,</t> rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="250" height="auto" />
Phagocyte Marker Cd68, supplied by Novus Biologicals, 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/phagocyte marker cd68/product/Novus Biologicals
Average 93 stars, based on 1 article reviews
phagocyte marker cd68 - by Bioz Stars, 2026-03
93/100 stars
  Buy from Supplier

Image Search Results


Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker (CD68, in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or CD68 alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals #NBP2-33337, rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under <xref ref-type=Figure 3 F). " width="100%" height="100%">

Journal: STAR Protocols

Article Title: Recombinant adeno-associated virus mediated gene delivery in the extracranial nervous system of adult mice by direct nerve immersion

doi: 10.1016/j.xpro.2022.101181

Figure Lengend Snippet: Systemic AAV dissemination, eGFP expression in Schwann cells and inflammation at the site of AAV delivery using SciNDi (A) Dual-IF detection of eGFP and neurofilament light chain (NF-L) in the sciatic nerve trunk following bilateral IM application of PBS (vehicle). Representative images showing eGFP alone (green), NF-L (red), the merge images of eGFP and NF-L, and nuclear marker DAPI (blue). IF procedures and image acquisition were performed as described under E and 2F (nerve trunk and 10× magnified views). (B) Immunohistochemical (IHC) detection of eGFP in the right lumbar L4/L5 spinal ventral horn (VH-R) or both dorsal horns (DH-R and DH-L) after AAV delivery using SciNDi. IHC procedures and image acquisition were performed as described under G–2I. (C) qRT-PCR determination of vector genome copy numbers (AAV2-ITR/2N∗β- tubulin) comparing AAV delivery via IM route or SciNDi (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; One- way ANOVA; ns, not significant). (D) qRT-PCR determination of eGFP (transgene) expression (ΔΔCT, relative to PBS injected cohorts). Statistics in A-B (Mean ± s.e.m.; SC: lumbar spinal cord, n = 6; B: whole brain, n = 4–6; and L: liver, n = 6; Mann-Whitney test: ∗= p ≤ 0.05, ns = not significant). (E and F ) Dual-IF co-detection of eGFP in sciatic nerve along with either the Schwann cell marker (S100, in E), or monocyte/macrophage marker (CD68, in F) following bilateral IM application of PBS, and AAV delivery using IM injection or SciNDi. Representative images (20× views) showing eGFP alone (green), S100 alone (red) (in E) or CD68 alone (red) (in F), and the respective merge images along with the nuclear marker DAPI (blue). Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals #NBP2-33337, rat mAb FA-11, 1:200). High resolution IF images were acquired using a Zeiss observer inverted microscope equipped with colibri 7 LED illumination. (G–I) Dual-IF co-detection of eGFP and and monocyte/macrophage marker (CD68) in hindlimb femoris muscle following PBS application using SciNDi (in G), and AAV delivery using IM injection (in H) or SciNDi (in I). Representative images (20× view, merge with DAPI, IF procedures and image acquisition were as described under Figure 3 F).

Article Snippet: Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals #NBP2-33337, rat mAb FA-11, 1:200).

Techniques: Expressing, Marker, Immunohistochemical staining, Quantitative RT-PCR, Plasmid Preparation, Injection, MANN-WHITNEY, Inverted Microscopy

Journal: STAR Protocols

Article Title: Recombinant adeno-associated virus mediated gene delivery in the extracranial nervous system of adult mice by direct nerve immersion

doi: 10.1016/j.xpro.2022.101181

Figure Lengend Snippet:

Article Snippet: Antibodies: eGFP (abcam #13970ab, Polyclonal chicken, 1:200), S100 (DAKO #Z0311, rabbit polyclonal, 1:200), CD68 (Novus Biologicals #NBP2-33337, rat mAb FA-11, 1:200).

Techniques: Marker, Virus, Recombinant, Plasmid Preparation, Electron Microscopy, Ointment, Sterility, Saline, Transferring, Adhesive, Software