gene name
ARC
siRNA Sequence
GUGAAGAACUGGGUGGAGU
AGGCAGACGGCUACGACUA
AGAAGUGGUGGGAGUUCAA
GGGUCAAGCGCGAGAUGCA
BRWD1
GAAAUUGAGUGAUUGUGAA
CGAAAGAGAGUCUAUUUAA
GAGCUGUGUUUGACUGUAA
GACAGAUUCCGCUCUAUUA
BRWD3
GACCUGAGACUAAUUAAUG
GGUGGUAUGUUCAUUACAA
GCAAGAAUUUGGCAGUAUC
GAUCGAAGCCGAGCUGUAU
C20ORF142 GCAAAUACUUUCACAAGCG
GACGGUGGCUGACGAGAUC
GUACGGGACAUACGGGUUU
GCACGGCCAUCUGGUACAU
C21ORF2
AAGCUAUGCUGCACACUGA
GGAUGAACGUGGCCUGAAG
GAAGAUGGUUCUGACCCGA
GGCAGCCGCCUCACAGAUA
CAMSAP1
GAGGGAAGGUUAUAUGUUA
UCAAACAAGCCGAUUAUUC
UAUAAUAUUCGGCUUCUGA
GUGUUGAAGCCGAAUGUUA
CAPZB
GAAGUACGCUGAACGAGAU
GGAGUGAUCCUCAUAAAGA
GAGACAAGGUGGUGGGAAA
CACCAUGGAGUAACAAGUA
Cdc42
GGAGAACCAUAUACUCUUG
GAUUACGACCGCUGAGUUA
GAUGACCCCUCUACUAUUG
CGGAAUAUGUACCGACUGU
CFL1
UGACAGGGAUCAAGCAUGA
GCGGUGCUCUUCUGCCUGA
GUCAAGAUGCUGCCAGAUA
GCUAUGCCCUCUAUGAUGC
DIAPH1
GAAGUGAACUGAUGCGUUU
GAAGAGAGAGCAACUCAUA
GGAGAUGGAUGACUUUAAU
GAUAUGAGAGUGCAACUAA
EPB41L4A
AGACACAGAUCUCGUUCGA
FAM40A
FAM40B
FMNL1
FMNL2
FMNL3
FNBP3
HYPC
LARP4
LIMD1
PDZK8
UCAAACACCAUCAGUAGGA
CGUAAACCUUGUGGAGAUA
GCGCUGUUCCGGAAGAAUU
GCAGCAAAUUUAUAGGUUA
GCAUGAAUGUUCUAAGACA
GCUGAUGACUCUCGAGAAG
UAGCGGACGUCUUGCCUGA
GAAGGCAACUCCUCACUAA
UAAAGCAGCACAAGUAUAU
GGGCCAACAUUGAGGCUUU
UGCCGGAGCUUACUACUGA
AGGCGUACCUGGACAAUAU
GAGAAGGGGUUAAUCCGUA
GAAUUGGGCCCAGGAGUGA
GCCAAGCCAUUGAGGCGUA
GAACCUACCUCCUGACAAA
UAAGAGAACUGGAAAUUUC
UAACAGACAUGUAUAUGAG
AAUUAGGCCUGGACGAAUA
GCGAGGAGGUCACGAAAUC
UAAAGCUGCUGCGGCAAUA
UGUCAGCCAUUCGAAUUAA
CAGCGUCGAUGUCAUUUGG
GGACAUAACUCUAGAAUCU
GGAAUGAUGUCGUCAGUAA
GGAAAGCCUUACUAUUAUA
GAUGCUGUCUGGGAAGAUA
AGGCAAACCUUAUUACUAU
GGAAAGAGUACAAGUCGGA
CUACAAUGCUGACGACAAG
UCACACAGAUACCAGGAAU
CAUAAGCGUUGUAUUGUAA
UAGGAUGUCUGAUGUUGUU
CAAGGGCUAGUAAGGAUUA
GGACAGUUGAACAGAUAUA
UCGAGGACCUGAACAUGUA
UCACUCAUGGAGACUAUUA
GCCGGAAGCUGAGAGGAAA
GAGUAGAGGCCCUGUCAAU
AAACAGAGGAGUUCUAUUA
GGACUUACACUUCGUCUUG
GCACUACGCAAUCUGAGUA
PHIP
Rac1
RhoA
RhoU
SH3D19
SH3KBP1
WAVE3
WTIP
ZMYM3
ZMYM4
ZMYM6
GCUCAUGCCAAUCGGGUUA
GAUGGGAGGUUGUUAGCUA
CGACAUGACAAUACAGUUA
CAACACAAUUAUCGUACAA
AUAUGGAGCUUAUACCUAA
AGACGGAGCUGUAGGUAAA
UAAGGAGAUUGGUGCUGUA
UAAAGACACGAUCGAGAAA
CGGCACCACUGUCCCAACA
AUGGAAAGCAGGUAGAGUU
GUACUGCUGUUUCGUAUGA
GAACGUCAGUGAGAAAUGG
CAGAGAAGAUGUCAAAGUC
AAGCAGGACUCCAGAUAAA
GAACAAAGCCAAAAUAGUA
GAAGAUAGAUACAGAUUGG
GAACCUGGCUGAAGAAUCU
GACACCCUCUCUACAGUAA
CAAGGUCAAUUGAAGUAGA
GGAGUGGACGCGUCAAAGA
CUAUCCAAGUCAAGUUUAA
ACGAGAGAUUAAACAGUUA
CAUCGGACGUUACGGAUUA
GCUAACAACUUCUACAUCA
GGGCUGAAGUUCUAUACUG
GGCUGAAGUUCUAUACUGA
GGACAUCUCAUCAUGGAAA
CAACGUGGGUGAGAAAGUG
GCGAGACUAUCACACGGUU
GCAGACGGCCGACAAAUGC
GUACCGGGCUCAACUAUUC
UAUCACAUGUGGAUCGUAA
GCCCAAUGGUGAACGAUAU
GGCCUCAUCUGACCUUUGU
GGAAGUACAUACAGUGGUG
GAAGAAGUCUAUAGUGGCU
GACACCAUGUUAACACGUA
GAAGAGCAUUUGUGGGAGU
UAAAGAAGAACCAGACAAU
GCAGUUGAACCCAGGCUUU
GAAAAUUGGUGGUGUGUCU
UAUCAUAAGACAGGAUCUA
ZNF135
ZRANB1
CGGAACAGCUCGGCACUUA
GCUCAGCACUUAUCGAACA
GGAGAAGCCAGACCUAAAU
CAACAGUGUCAUCUUGGUA
GAAGAAGAAUCUCCAAUUA
GAAAUAAACUGAACACUAG
CAGCAGAUAUUGAAGAUUU
UAAGUGGGCUUGUGAAUAU
Table S3. siRNAs used for experiments. The names of the 26 human PMM genes and actin
regulatory genes, and 4 siRNA sequences (sense strand) that were used as a pool for knockdown
of each gene are shown. Only one siRNA was used for RhoA.