diff --git a/methods_html/CH-ATAC-seq.html b/methods_html/CH-ATAC-seq.html
index 4ecab43..9a4a6f7 100644
--- a/methods_html/CH-ATAC-seq.html
+++ b/methods_html/CH-ATAC-seq.html
@@ -10,7 +10,7 @@
-CH-ATAC-seq is like sci-ATAC-seq3 that uses combinatorial indexing to achieve single cell chromatin accessibility profiling. They difference is that CH-ATAC-seq uses barcoded Tn5 with to add the first-level barcode. Then subsequent rounds of barcodes are added through hybridisation. The oligo sequences here are taken from the Supplementary Table 1 from the paper, which is designed to work on the BGI system.
+CH-ATAC-seq is like sci-ATAC-seq3 that uses combinatorial indexing to achieve single cell chromatin accessibility profiling. They difference is that CH-ATAC-seq uses barcoded Tn5 with to add the first-level barcode. Then subsequent rounds of barcodes are added through hybridisation. The oligo sequences here are taken from the Supplementary Table 1 from the paper, which is designed to work on the BGI system.
diff --git a/methods_html/itChIP-seq.html b/methods_html/itChIP-seq.html
index 37f5935..085a843 100644
--- a/methods_html/itChIP-seq.html
+++ b/methods_html/itChIP-seq.html
@@ -48,7 +48,7 @@ Adapter and primer sequences:
Step-by-step library generation
(1) Anneal Barcoded Tn5 sequences s5/s7 and Tn5 binding site 19-bp Mosaic End (ME) bottom strand to assemble the barcoded Tn5 transposome, sort single nulcei into well plates, perform tagmentation to barcode each nulcei:
-
+
(2) Sort limited nulcei into wells, and perform tagmentation using barcoded Tn5 transposome: