Mouse Insulin Receptor - A (- exon 11)
NM_010568
atgggcttcgggagaggatgtgagacgacggctgtgccattgctggtggccgtggccgcgttgctggtgggcacagccggccacctgtaccctggagaggtgtgccctggtatggacatc
cggaacaacctgaccaggctacatgagctggagaactgctcagtcattgagggccatctgcagatcctcctgatgttcaagaccagacccgaagatttccgagacctcagtttccccaaa
ctcatcatgatcacagattacctgcttctcttccgtgtctatggtctggaaagtctgaaagacctcttcccaaatctcacagtcatccgaggctcccgtctcttcttcaactatgccctggttat
cttcgagatggtccacctgaaggagctggggctttataacctcatgaacatcacccggggctctgtccgcatcgagaagaataatgagctctgctacctggccactatcgactggtcccgt
atcctggattctgtggaggacaactacattgtactgaacaaagatgacaacgaggaatgtggggatgtctgtccaggcaccgccaagggcaagaccaactgtcctgccactgtcatcaat
gggcagtttgtggaacggtgctggacacacagtcattgtcagaaagtttgcccaaccatctgtaagtcacatggctgcacagctgaaggcctgtgctgccacaaagagtgcctgggcaac
tgttcggaacctgatgaccccaccaagtgtgtggcctgtcgcaacttctatctggatggtcagtgtgtggagacctgcccgccaccctactatcacttccaggactggcgctgtgtgaacttc
agcttctgccaagaccttcacttcaaatgcaggaactctcggaagcctggctgccaccaatacgtcattcacaacaataagtgcatccccgagtgcccgtctggctataccatgaattcca
gcaacttgatgtgcaccccatgtctgggaccctgccctaaggtctgccaaatcctcgaaggtgagaagaccattgattctgtgacatctgcccaggagctccgaggctgcactgtgatcaa
cggtagcctgatcatcaacatccgagggggcaacaacctggcagctgagctggaggctaaccttggcctcattgaagaaatttcgggatttctaaagatccgccgctcctatgctctggta
tcactttctttcttcaggaagctacatctgattcgaggagagaccttggaaattgggaactattctttttatgccttggacaaccagaacctgaggcaactctgggactggagcaaacacaa
cctcaccatcactcagggcaagctcttcttccattacaacccgaaactctgcttgtctgaaattcacaagatggaagaagtctccggaactaagggccgtcaggagaggaacgacattgc
cctgaagaccaatggggaccaggcatcgtgtgaaaatgaattgcttaaattttctttcattcggacatcttttgacaagatcctgttgaggtgggaaccctactggccccccgacttccgag
atctcctgggattcatgttgttctacaaagaggccccttatcagaatgtgacagagtttgatgggcaggatgcttgtggctccaacagctggactgtggtggatattgacccgccccagag
gtccaacgaccccaagtctcagaccccaagccaccctgggtggctgatgcggggcctcaaaccctggacccaatacgccatctttgtgaagaccttggttaccttctctgatgaacggcgg
acctatggagccaaaagtgatatcatctatgtgcaaacagatgccactaatccttctgtccccctggatcccatatcagtttctaattcctcatctcagattatcttaaagtggaagcccccc
tctgaccccaatggcaacatcacacactacctggtgtactgggagaggcaagcagaggacagcgagctgtttgagctggattattgtctcaaagggctgaagctcccttcacggacctgg
tccccaccctttgagtctgatgattctcagaagcacaatcagagtgagtatgacgactcggccagtgagtgctgctcatgccctaagactgactctcagatcctgaaggagctggaggagt
cttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccaggccatcccgaaagcgaagatcccttgaagaggtggggaatgtgacagccaccacactcacacttcc
agatttccccaacgtctcctctaccattgtgcccacaagtcaggaggagcacaggccatttgagaaagtggtgaacaaggagtcacttgtcatctctggcctgagacacttcactgggtac
cgcattgagctgcaggcatgcaatcaagattccccagatgagaggtgcagtgtggctgcctacgtcagtgcccggaccatgcctgaagctaaggcagatgacatcgttggccctgtgact
catgaaatctttgagaacaatgttgtacacttaatgtggcaagagccaaaggaacctaatggtctgattgtgctatatgaagtgagctatcgccgatatggtgatgaggagctgcacctct
gtgtctcccggaagcattttgccctggagcggggctgcaggctgcgagggctctccccaggaaactacagtgttcgagtccgggctacctctctggcaggaaatggctcctggacagaac
ccacctatttttatgtgactgattatttagatgtcccatcaaatattgccaaaattatcattggacccctcatctttgtcttcctcttcagtgttgtgattggaagtatttatctatttctgagaaa
gaggcagccggatgggccaatgggaccactgtatgcatcttcaaaccctgagtacctcagtgccagtgatgtgtttccatcttctgtgtacgtgccggacgagtgggaggtgcctcgagag
aagatcacccttcttcgagagctggggcagggatcctttggtatggtgtatgaaggcaatgccaaggatatcatcaagggtgaggcagagacccgtgttgcggttaagactgtcaatgag
tcagccagtcttcgagaacggatcgagttcctcaatgaggcatcagtcatgaagggattcacctgccatcatgtggtccgccttcttggggtggtatccaaaggacagccaacgctggtag
tgatggaattgatggctcatggagacctgaaaagtcacctccgttctctgaggccagatgctgagaataacccaggccgccctccccctaccttgcaagaaatgattcagatgacagcag
aaattgctgatggcatggcatacttgaacgccaagaagtttgtgcaccgggacctggcagctcgaaactgcatggttgcccatgattttactgtcaaaattggagactttggaatgacaag
ggacatctacgagacagattactatcggaaagggggcaagggactgcttcctgtgaggtggatgtcacctgagtccctgaaggatggagtctttactgcttcttctgatatgtggtcctttg
gggtggtcctttgggaaatcactagcctggctgagcaaccttatcaaggcctgtctaatgaacaggtgttgaagtttgtcatggatggaggctatctggatccccctgataactgtccagag
agactcactgacctgatgcgcatgtgctggcagttcaaccccaagatgaggccaaccttcctggaaatcgtcaacctgctcaaggatgacctccaccccagctttccagaagtttccttctt
ctacagcgaggagaacaaggctcctgagagtgaggagctggagatggagtttgaagacatggagaatgtcccgttggatcgttcctctcactgtcagagagaagaggctgggggccgg
gagggagggtcctcactgagcatcaaacggacctatgatgaacacatcccctatacccacatgaatgggggcaagaagaacggacgtgtccttaccctgccaaggtcaaacccttccta
a
Mouse Insulin Receptor - B (+ exon 11)
EU346716.1
atgggcttcgggagaggatgtgagacgacggctgtgccattgctggtggccgtggccgcgttgctggtgggcacagccggccacctgtaccctggagaggtgtgccctggtatggacatc
cggaacaacctgaccaggctacatgagctggagaactgctcagtcattgagggccatctgcagatcctcctgatgttcaagaccagacccgaagatttccgagacctcagtttccccaaa
ctcatcatgatcacagattacctgcttctcttccgtgtctatggtctggaaagtctgaaagacctcttcccaaatctcacagtcatccgaggctcccgtctcttcttcaactatgccctggttat
cttcgagatggtccacctgaaggagctggggctttataacctcatgaacatcacccggggctctgtccgcatcgagaagaataatgagctctgctacctggccactatcgactgg
tcccgtatcctggattctgtggaggacaactacattgtactgaacaaagatgacaacgaggaatgtggggatgtctgtccaggcaccgccaagggcaagaccaactgtcctgccactgtc
atcaatgggcagtttgtggaacggtgctggacacacagtcattgtcagaaagtttgcccaaccatctgtaagtcacatggctgcacagctgaaggcctgtgctgccacaaagagtgcctg
ggcaactgttcggaacctgatgaccccaccaagtgtgtggcctgtcgcaacttctatctggatggtcagtgtgtggagacctgcccgccaccctactatcacttccaggactggcgctgtgt
gaacttcagcttctgccaagaccttcacttcaaatgcaggaactctcggaagcctggctgccaccaatacgtcattcacaacaataagtgcatccccgagtgcccgtctggctatacc
atgaattccagcaacttgatgtgcaccccatgtctgggaccctgccctaaggtctgccaaatcctcgaaggtgagaagaccattgattctgtgacatctgcccaggagctccgaggctgca
ctgtgatcaacggtagcctgatcatcaacatccgagggggcaacaacctggcagctgagctggaggctaaccttggcctcattgaagaaatttcgggatttctaaagatccgccgctcc
tatgctctggtatcactttctttcttcaggaagctacatctgattcgaggagagaccttggaaattgggaactattctttttatgccttggacaaccagaacctgaggcaactctgggactgg
agcaaacacaacctcaccatcactcagggcaagctcttcttccattacaacccgaaactctgcttgtctgaaattcacaagatggaagaagtctccggaactaagggccgtcaggag
aggaacgacattgccctgaagaccaatggggaccaggcatcgtgtgaaaatgaattgcttaaattttctttcattcggacatcttttgacaagatcctgttgaggtgggaaccctactggcc
ccccgacttccgagatctcctgggattcatgttgttctacaaagaggccccttatcagaatgtgacagagtttgatgggcaggatgcttgtggctccaacagctggactgtggtggat
attgacccgccccagaggtccaacgaccccaagtctcagaccccaagccaccctgggtggctgatgcggggcctcaaaccctggacccaatacgccatctttgtgaagaccttggttacc
ttctctgatgaacggcggacctatggagccaaaagtgatatcatctatgtgcaaacagatgccactaatccttctgtccccctggatcccatatcagtttctaattcctcatctcagatt
atcttaaagtggaagcccccctctgaccccaatggcaacatcacacactacctggtgtactgggagaggcaagcagaggacagcgagctgtttgagctggattattgtctcaaagggct
gaagctcccttcacggacctggtccccaccctttgagtctgatgattctcagaagcacaatcagagtgagtatgacgactcggccagtgagtgctgctcatgccctaagactgactctcag
atcctgaaggagctggaggagtcttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccagAAAAACCTCTTCAGGCAATGGTGCCGAGGACAG
TAGgccatcccgaaagcgaagatcccttgaagaggtggggaatgtgacagccaccacactcacacttccagatttccccaacgtctcctctaccattgtgcccacaagtcaggaggagc
acaggccatttgagaaagtggtgaacaaggagtcacttgtcatctctggcctgagacacttcactgggtaccgcattgagctgcaggcatgcaatcaagattccccagatgagaggtgca
gtgtggctgcctacgtcagtgcccggaccatgcctgaagctaaggcagatgacatcgttggccctgtgactcatgaaatctttgagaacaatgttgtacacttaatgtggcaagagccaa
aggaacctaatggtctgattgtgctatatgaagtgagctatcgccgatatggtgatgaggagctgcacctctgtgtctcccggaagcattttgccctggagcggggctgcaggctgcgagg
gctctccccaggaaactacagtgttcgagtccgggctacctctctggcaggaaatggctcctggacagaacccacctatttttatgtgactgattatttagatgtcccatcaaatattgccaa
aattatcattggacccctcatctttgtcttcctcttcagtgttgtgattggaagtatttatctatttctgagaaagaggcagccggatgggccaatgggaccactgtatgcatcttcaaaccct
gagtacctcagtgccagtgatgtgtttccatcttctgtgtacgtgccggacgagtgggaggtgcctcgagagaagatcacccttcttcgagagctggggcagggatcctttggtatggtgta
tgaaggcaatgccaaggatatcatcaagggtgaggcagagacccgtgttgcggttaagactgtcaatgagtcagccagtcttcgagaacggatcgagttcctcaatgaggcatcagtca
tgaagggattcacctgccatcatgtggtccgccttcttggggtggtatccaaaggacagccaacgctggtagtgatggaattgatggctcatggagacctgaaaagtcacctccgttctct
gaggccagatgctgagaataacccaggccgccctccccctaccttgcaagaaatgattcagatgacagcagaaattgctgatggcatggcatacttgaacgccaagaagtttgtgcacc
gggacctggcagctcgaaactgcatggttgcccatgattttactgtcaaaattggagactttggaatgacaagggacatctacgagacagattactatcggaaagggggcaagggactg
cttcctgtgaggtggatgtcacctgagtccctgaaggatggagtctttactgcttcttctgatatgtggtcctttggggtggtcctttgggaaatcactagcctggctgagcaaccttatcaag
gcctgtctaatgaacaggtgttgaagtttgtcatggatggaggctatctggatccccctgataactgtccagagagactcactgacctgatgcgcatgtgctggcagttcaaccccaag
atgaggccaaccttcctggaaatcgtcaacctgctcaaggatgacctccaccccagctttccagaagtttccttcttctacagcgaggagaacaaggctcctgagagtgaggagctggag
atggagtttgaagacatggagaatgtcccgttggatcgttcctctcactgtcagagagaagaggctgggggccgggagggagggtcctcactgagcatcaaacggacctatgatgaaca
catcccctatacccacatgaatgggggcaagaagaacggacgtgtccttaccctgccaaggtcaaacccttcctaa
Initial Set of Primers (IR F & IR R)
mouse IR forward primer
within exon 10
taagactgactctcagatcctg (22bp, Tm 60.44)
(gc = 10 & at = 12, calculated Tm 64  4x10 + 2x12)
mouse IR reverse primer
within exon 12
gac aag tga ctc ctt gtt cac (21bp, Tm 61.14)
gtgaacaaggagtcacttgtc
PCR Fragment obtained using:
mouseIR_forward1 & mouseIR_reverse1
from matrix DNA <mouse_IR-A.xdna>
taagactgactctcagatcctgaaggagctggaggagtcttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccaggccatcccgaaagcgaagatcccttgaa
gaggtggggaatgtgacagccaccacactcacacttccagatttccccaacgtctcctctaccattgtgcccacaagtcaggaggagcacaggccatttgagaaagtggtgaacaagga
gtcacttgtc
250 bp
PCR Fragment obtained using:
mouseIR_forward1 & mouseIR_reverse1
from matrix DNA <mouse_IR-B.xdna>
taagactgactctcagatcctgaaggagctggaggagtcttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccagAAAAACCTCTTCAGGCAATGG
TGCCGAGGACAGTAGgccatcccgaaagcgaagatcccttgaagaggtggggaatgtgacagccaccacactcacacttccagatttccccaacgtctcctctaccattgtgccc
acaagtcaggaggagcacaggccatttgagaaagtggtgaacaaggagtcacttgtc
286 bp
Second Set of Primers (IR exon F & IR exon R)
mouse IR exon 9-10 forward primer
bridging across exon 9-10
ttgtctcaaagggctgaagc (20bp, GC% 50) Tm 60
mouse IR exon 12-13 reverse primer
bridging across exon 12-13
gtc atc tgc ctt agc ttc agg (21bp, GC% 52) Tm 62.57
cctgaagctaaggcagatgac
PCR Fragment obtained using:
mouseIR_ex 9-10 F & mouseIR_ex 12-13 R
from matrix DNA <mouse_IR-A.xdna>
ttgtctcaaagggctgaagctcccttcacggacctggtccccaccctttgagtctgatgattctcagaagcacaatcagagtgagtatgacgactcggccagtgagtgctgctcatgccct
aagactgactctcagatcctgaaggagctggaggagtcttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccaggccatcccgaaagcgaagatcccttgaa
gaggtggggaatgtgacagccaccacactcacacttccagatttccccaacgtctcctctaccattgtgcccacaagtcaggaggagcacaggccatttgagaaagtggtgaacaagga
gtcacttgtcatctctggcctgagacacttcactgggtaccgcattgagctgcaggcatgcaatcaagattccccagatgagaggtgcagtgtggctgcctacgtcagtgcccggaccatg
cctgaagctaaggcagatgac
502 bp
PCR Fragment obtained using:
mouseIR_ex 9-10 F & mouseIR_ex 12-13 R
from matrix DNA <mouse_IR-B.xdna>
ttgtctcaaagggctgaagctcccttcacggacctggtccccaccctttgagtctgatgattctcagaagcacaatcagagtgagtatgacgactcggccagtgagtgctgctcatgccct
aagactgactctcagatcctgaaggagctggaggagtcttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccagAAAAACCTCTTCAGGCAATGGT
GCCGAGGACAGTAGgccatcccgaaagcgaagatcccttgaagaggtggggaatgtgacagccaccacactcacacttccagatttccccaacgtctcctctaccattgtgccca
caagtcaggaggagcacaggccatttgagaaagtggtgaacaaggagtcacttgtcatctctggcctgagacacttcactgggtaccgcattgagctgcaggcatgcaatcaagattccc
cagatgagaggtgcagtgtggctgcctacgtcagtgcccggaccatgcctgaagctaaggcagatgac
538 bp
Third Set of Primers (rat IR splice F & rat IR splice R)
rat IR splice forward
ttcattcaggaagaccttcga (21 bp)
rat IR splice reverse
cag gcc aga gat gac aag tga c (22 bp)
gtcacttgtcatctctggcctg
PCR Fragment obtained using:
rat IR splice F & rat IR splice R
from matrix DNA <mouse_IR-A.xdna>
ttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccaggccatcccgaaagcgaagatcccttgaagaggtggggaatgtgacagccaccacactcacacttcc
agatttccccaacgtctcctctaccattgtgcccacaagtcaggaggagcacaggccatttgagaaagtggtgaacaaggagtcacttgtcatctctggcctg
223 bp
PCR Fragment obtained using:
rat IR splice F & rat IR splice R
from matrix DNA <mouse_IR-B.xdna>
ttcattcaggaagaccttcgaggattacctgcacaacgtggtttttgtccccagAAAAACCTCTTCAGGCAATGGTGCCGAGGACAGTAGgccatcccgaaagcgaag
atcccttgaagaggtggggaatgtgacagccaccacactcacacttccagatttccccaacgtctcctctaccattgtgcccacaagtcaggaggagcacaggccatttgagaaagtggt
gaacaaggagtcacttgtcatctctggcctg
259 bp