TABLE 1.
Primers1
| Sequence |
|||
| Primer | F | R | Product size, bp |
| Col1a1 | GCCTCCCAGAACATCACCTA | GCAGGGACTTCTTGAGGTTG | 82 |
| Tgfb | TGCCCTCTACAACCAACACA | CTTGCGACCCACGTAGTAGA | 100 |
| Mcp1 | TGGACCAGAACCAAGTGAGA | TGCTGAAGTCCTTAGGGTTGA | 71 |
| Acta2 | GACATCAGGAAGGATCTCTATGC | TCTCCTTCTGCATCCTGTCA | 88 |
| Des | GGAGGAGATCCGACACCTAA | ACATCCAAGGCCATCTTCAC | 87 |
| Gfap | GAGTTACCAGGAGGCACTCG | GGGCCATCTCCTCCTTGAG | 65 |
| Clec4f | ACGGAGAGCGTGAAGACTGT | CTTGCACACCCAGTTGTAGG | 83 |
| Cd68 | AAAGCTTCTGTTGCGGAAAT | GAGCAGGTCCAGGTGAATTG | 62 |
| Mmp2 | GGAAAGAGGATACCCCAAGC | TCCAGTTAAAGGCAGCGTCT | 80 |
| Mmp9 | TTGGGTCTAGGCTCAGAGGT | AGATACGTTCCCGGCTGAT | 88 |
| Timp1 | CTGAGAAGGGCTACCAGAGC | TATTGCCAGGTGCACAAATC | 70 |
| Timp2 | GGATGGACTGGGTCACAGAG | GCGCAAGAACCATCACTTCT | 85 |
| Gp91phox | CGAAGCCTTGGCTAAAACTCT | TCCTTGTTGAAGATGAAGTGGA | 87 |
| P22phox | GTGAGCAGTGGACTCCCATT | GTAGGTGGCTGCTTGATGGT | 76 |
| P47phox | TGTGACACCCTCTCACAGACA | GTCGCATTTTCCCTCCTTTA | 96 |
| P67phox | CCGATAACCGGACAACAGAG | CAGGTCTTCTGGCTGGGTAG | 72 |
| P40phox | GATGTGGGACTCATGGTGAA | AATTGTCCTTCTGGGTGACG | 91 |
| Nrf2 | AGCAAGACTTGGGCCACTTA | GATGGAGGTTTCTGTCGTTTTC | 78 |
| Hmox1 | TAACCAGGATCTCCCCAAGA | TTAGAGTGCTGTGGCAGGTG | 73 |
| Gpx1 | CACCCGCTCTTTACCTTCCT | CGGGGACCAAATGATGTACT | 75 |
| Gst | TCTTGTTGGCAACCAACTCA | AGTCAGACAGCACAGGAGCA | 92 |
| Nqo1 | TGGAGACTGTCTGGGAGGAG | TCCTGCCTGGAAGTTTAGGT | 74 |
| Actb | ATGCTGCGTCTGGACTG | CTCCAGTGTGGTGAA | 85 |
1
Acta2, α-smooth muscle actin 2; Actb, β-actin; Cd68, cluster of differentiation 68; Clec4f, C-type lectin-domain family 4; Col1a1, collagen type 1, α1; Des, desmin; F, forward; Gfap, glial fibrillary acidic protein; Gpx1, glutathione peroxidase 1; Gst, glutathione synthetase; Hmox1, heme oxygenase 1; Mcp1, monocyte chemoattractant protein 1; Mmp, matrix metalloproteinase; Nqo1, NAD(P)H dehydrogenase, quinone 1; Nrf2, nuclear factor, erythroid 2–like 2; R, reverse; Tgfb, transforming growth factor β Timp, tissue inhibitor of matrix metalloproteinases.