TLR1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	TLR1
Entrez Gene ID	100472707
Full Name	toll like receptor 1
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011235941.2	XP_011234243.1	toll-like receptor 1
XM_019808912.1	XP_019664471.1	toll-like receptor 1
XM_019808913.1	XP_019664472.1	toll-like receptor 1
XM_019808911.1	XP_019664470.1	toll-like receptor 1

Pathways from BioSystems
Gene Ontology

The following TLR1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TLR1 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OAc24622	XM_019808913.1 Latest version!	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OAc24622	XM_019808912.1 Latest version!	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OAc24622	XM_019808911.1 Latest version!	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OAc24622	XM_011235941.2 Latest version!	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

TLR1 ( XM_011235941.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011234243.1 Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc24622
Clone ID Related Accession (Same CDS sequence)	XM_011235941.2 , XM_019808912.1 , XM_019808913.1 , XM_019808911.1
Accession Version	XM_011235941.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2385bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	toll-like receptor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218729.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011235941.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011234243.1
CDS	186..2570
Translation	MMKTNSSIFHFAIIFMLIFEIRIQLSNESEFLVNRSKAGLFHVPKDLSLKTTILDISQNYISELQTSDILSLSKLRILIVSHNRIQFLDISVFKFNQELEYLDLSHNELGKISCHPTVNLKHLDLSFNAFDDLPICKEFGNMSQLEFLGLSATHLQKSSVLPIASLHIRKVLLVLGDTYGEKEDPKSLQNLNTESLHIVFPRTKEFSFTLDVSVSTAISLELSNIKCILDDNGCSYFQNVLSKLQKNSRLSNLTLNNIETTWSFFITILQMVWHTNIEYFSISNIKLQGYLNLRYFDYSDTSLKALSIHHVVSDVFSLSQSYIYKIISNMNIQNVTVSGTHMVHMVCPSQLSPFLYLDFSNNLLTDLVFKNCGTLAKLETLNLQMNQLKNLASIVNMTKEMKSLQQLDISQNSLKYDENEGNCAWTRSLLSLNMSSNILTDSVFRCLPPKVKVLDLHNNRIRNIPKPIMKLEALQELNVASNSLAHLPDCGTFSSLSILIIDSNSISNPSADFFQSCQKIRSIRAGNNPFQCTCELREFVQSLGQVSSEVVEGWPDSYQCDSPENYKGTPLKDFHVSQLSCNTTLLLVTIGVTVLGLTVIVTALCIYFDLPWYLRMMYQWTQTRRRARNAPLEELQRTLQFHAFISYSGHDSAWVKSELLPNLEKEDIRICLHERNFVPGKSIVENIINCIEKSYKSIFVLSPNFVQSEWCHYELYFAHHNLFHEAFDNLILILLEPIPQYSIPSSYHKLKNLMAQRTYLEWPKEKSKHGLFWANLRASINIKLMEQAKKIDHT

Target ORF information:

RefSeq Version	XM_011235941.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011235941.2

ORF Insert Sequence:

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

TLR1 ( XM_019808912.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019664471.1 Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAc24622
Clone ID Related Accession (Same CDS sequence)	XM_011235941.2 , XM_019808912.1 , XM_019808913.1 , XM_019808911.1
Accession Version	XM_019808912.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2385bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	toll-like receptor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218729.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_019664471.1
CDS	766..3150
Translation	MMKTNSSIFHFAIIFMLIFEIRIQLSNESEFLVNRSKAGLFHVPKDLSLKTTILDISQNYISELQTSDILSLSKLRILIVSHNRIQFLDISVFKFNQELEYLDLSHNELGKISCHPTVNLKHLDLSFNAFDDLPICKEFGNMSQLEFLGLSATHLQKSSVLPIASLHIRKVLLVLGDTYGEKEDPKSLQNLNTESLHIVFPRTKEFSFTLDVSVSTAISLELSNIKCILDDNGCSYFQNVLSKLQKNSRLSNLTLNNIETTWSFFITILQMVWHTNIEYFSISNIKLQGYLNLRYFDYSDTSLKALSIHHVVSDVFSLSQSYIYKIISNMNIQNVTVSGTHMVHMVCPSQLSPFLYLDFSNNLLTDLVFKNCGTLAKLETLNLQMNQLKNLASIVNMTKEMKSLQQLDISQNSLKYDENEGNCAWTRSLLSLNMSSNILTDSVFRCLPPKVKVLDLHNNRIRNIPKPIMKLEALQELNVASNSLAHLPDCGTFSSLSILIIDSNSISNPSADFFQSCQKIRSIRAGNNPFQCTCELREFVQSLGQVSSEVVEGWPDSYQCDSPENYKGTPLKDFHVSQLSCNTTLLLVTIGVTVLGLTVIVTALCIYFDLPWYLRMMYQWTQTRRRARNAPLEELQRTLQFHAFISYSGHDSAWVKSELLPNLEKEDIRICLHERNFVPGKSIVENIINCIEKSYKSIFVLSPNFVQSEWCHYELYFAHHNLFHEAFDNLILILLEPIPQYSIPSSYHKLKNLMAQRTYLEWPKEKSKHGLFWANLRASINIKLMEQAKKIDHT

Target ORF information:

RefSeq Version	XM_019808912.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_019808912.1

ORF Insert Sequence:

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

TLR1 ( XM_019808913.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019664472.1 Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAc24622
Clone ID Related Accession (Same CDS sequence)	XM_011235941.2 , XM_019808912.1 , XM_019808913.1 , XM_019808911.1
Accession Version	XM_019808913.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2385bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	toll-like receptor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218729.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_019664472.1
CDS	486..2870
Translation	MMKTNSSIFHFAIIFMLIFEIRIQLSNESEFLVNRSKAGLFHVPKDLSLKTTILDISQNYISELQTSDILSLSKLRILIVSHNRIQFLDISVFKFNQELEYLDLSHNELGKISCHPTVNLKHLDLSFNAFDDLPICKEFGNMSQLEFLGLSATHLQKSSVLPIASLHIRKVLLVLGDTYGEKEDPKSLQNLNTESLHIVFPRTKEFSFTLDVSVSTAISLELSNIKCILDDNGCSYFQNVLSKLQKNSRLSNLTLNNIETTWSFFITILQMVWHTNIEYFSISNIKLQGYLNLRYFDYSDTSLKALSIHHVVSDVFSLSQSYIYKIISNMNIQNVTVSGTHMVHMVCPSQLSPFLYLDFSNNLLTDLVFKNCGTLAKLETLNLQMNQLKNLASIVNMTKEMKSLQQLDISQNSLKYDENEGNCAWTRSLLSLNMSSNILTDSVFRCLPPKVKVLDLHNNRIRNIPKPIMKLEALQELNVASNSLAHLPDCGTFSSLSILIIDSNSISNPSADFFQSCQKIRSIRAGNNPFQCTCELREFVQSLGQVSSEVVEGWPDSYQCDSPENYKGTPLKDFHVSQLSCNTTLLLVTIGVTVLGLTVIVTALCIYFDLPWYLRMMYQWTQTRRRARNAPLEELQRTLQFHAFISYSGHDSAWVKSELLPNLEKEDIRICLHERNFVPGKSIVENIINCIEKSYKSIFVLSPNFVQSEWCHYELYFAHHNLFHEAFDNLILILLEPIPQYSIPSSYHKLKNLMAQRTYLEWPKEKSKHGLFWANLRASINIKLMEQAKKIDHT

Target ORF information:

RefSeq Version	XM_019808913.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_019808913.1

ORF Insert Sequence:

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

TLR1 ( XM_019808911.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019664470.1 Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc24622
Clone ID Related Accession (Same CDS sequence)	XM_011235941.2 , XM_019808912.1 , XM_019808913.1 , XM_019808911.1
Accession Version	XM_019808911.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2385bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	toll-like receptor 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218729.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_019664470.1
CDS	1026..3410
Translation	MMKTNSSIFHFAIIFMLIFEIRIQLSNESEFLVNRSKAGLFHVPKDLSLKTTILDISQNYISELQTSDILSLSKLRILIVSHNRIQFLDISVFKFNQELEYLDLSHNELGKISCHPTVNLKHLDLSFNAFDDLPICKEFGNMSQLEFLGLSATHLQKSSVLPIASLHIRKVLLVLGDTYGEKEDPKSLQNLNTESLHIVFPRTKEFSFTLDVSVSTAISLELSNIKCILDDNGCSYFQNVLSKLQKNSRLSNLTLNNIETTWSFFITILQMVWHTNIEYFSISNIKLQGYLNLRYFDYSDTSLKALSIHHVVSDVFSLSQSYIYKIISNMNIQNVTVSGTHMVHMVCPSQLSPFLYLDFSNNLLTDLVFKNCGTLAKLETLNLQMNQLKNLASIVNMTKEMKSLQQLDISQNSLKYDENEGNCAWTRSLLSLNMSSNILTDSVFRCLPPKVKVLDLHNNRIRNIPKPIMKLEALQELNVASNSLAHLPDCGTFSSLSILIIDSNSISNPSADFFQSCQKIRSIRAGNNPFQCTCELREFVQSLGQVSSEVVEGWPDSYQCDSPENYKGTPLKDFHVSQLSCNTTLLLVTIGVTVLGLTVIVTALCIYFDLPWYLRMMYQWTQTRRRARNAPLEELQRTLQFHAFISYSGHDSAWVKSELLPNLEKEDIRICLHERNFVPGKSIVENIINCIEKSYKSIFVLSPNFVQSEWCHYELYFAHHNLFHEAFDNLILILLEPIPQYSIPSSYHKLKNLMAQRTYLEWPKEKSKHGLFWANLRASINIKLMEQAKKIDHT

Target ORF information:

RefSeq Version	XM_019808911.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca toll like receptor 1 (TLR1), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_019808911.1

ORF Insert Sequence:

ATGATGAAAA CTAATTCTAG CATCTTCCAT TTTGCCATAA TCTTCATGTT AATATTTGAG 
ATCAGAATCC AATTGTCCAA TGAAAGTGAA TTTCTAGTTA ACAGATCAAA AGCAGGTCTC 
TTTCATGTTC CCAAAGACCT ATCCTTGAAA ACAACAATCT TAGATATATC ACAAAACTAT 
ATATCTGAGC TTCAGACTTC GGACATCCTA TCACTATCAA AGCTGAGGAT TTTGATAGTT 
TCTCATAATA GAATTCAGTT TCTTGATATC AGTGTTTTCA AATTCAACCA GGAATTGGAA 
TACTTGGATT TGTCCCACAA TGAGTTGGGG AAGATTTCTT GCCATCCTAC TGTGAACCTC 
AAGCACTTAG ACCTCTCGTT TAATGCATTT GATGATCTGC CCATATGCAA GGAGTTTGGC 
AACATGTCTC AACTAGAATT TCTGGGATTA AGTGCCACAC ATTTACAAAA ATCTAGTGTG 
CTACCAATTG CTTCTTTGCA TATAAGGAAG GTTTTACTGG TCTTAGGAGA CACTTATGGG 
GAAAAAGAAG ACCCCAAGAG CCTTCAAAAC CTCAACACAG AAAGTCTACA CATTGTTTTC 
CCCAGAACAA AGGAATTCAG TTTTACTTTG GATGTATCAG TCAGCACTGC AATAAGTCTG 
GAACTATCTA ATATCAAATG TATCCTAGAT GATAATGGAT GTTCTTATTT CCAAAATGTT 
CTGTCAAAAC TTCAAAAGAA TTCAAGGTTA TCAAATCTTA CTTTAAACAA CATTGAAACA 
ACGTGGAGTT TCTTCATTAC AATCCTCCAA ATGGTTTGGC ATACAAACAT AGAGTATTTC 
TCAATTTCAA ATATAAAACT ACAAGGTTAC CTTAACTTAA GATATTTTGA TTATTCTGAC 
ACGTCACTGA AGGCCTTATC TATACACCAC GTTGTCAGTG ATGTGTTCAG TTTGTCACAA 
AGTTATATCT ATAAAATCAT TTCAAACATG AACATCCAAA ATGTCACAGT GTCTGGTACA 
CACATGGTCC ACATGGTTTG CCCATCCCAA CTTAGTCCAT TTCTGTATTT GGATTTTTCT 
AATAATCTCT TAACAGACCT GGTTTTTAAA AATTGTGGAA CCTTGGCTAA ACTGGAGACA 
CTTAATTTAC AAATGAATCA ATTAAAAAAT CTTGCAAGTA TAGTTAATAT GACCAAGGAG 
ATGAAGTCTC TACAACAATT GGATATTAGC CAGAATTCTC TAAAGTATGA TGAAAATGAA 
GGAAATTGTG CTTGGACTAG AAGTTTATTA AGTTTAAATA TGTCTTCAAA TATACTTACT 
GACTCTGTTT TCAGATGTTT ACCTCCCAAG GTCAAGGTAC TTGATCTTCA CAATAACAGA 
ATAAGGAACA TTCCTAAACC AATCATGAAA CTAGAAGCTT TGCAAGAACT CAATGTTGCT 
TCCAATTCTT TAGCCCACCT TCCTGACTGT GGTACTTTTA GCAGCCTTTC TATACTGATC 
ATTGACTCTA ATTCAATTTC CAACCCATCA GCTGATTTCT TCCAGAGCTG CCAGAAGATT 
AGGTCCATAA GAGCAGGGAA CAATCCATTC CAATGTACAT GTGAGCTCAG AGAATTTGTC 
CAAAGTCTAG GCCAAGTATC AAGTGAAGTG GTAGAAGGTT GGCCTGATTC TTATCAGTGT 
GACTCTCCAG AAAACTATAA GGGAACCCCA CTGAAGGACT TCCACGTGTC TCAGTTATCC 
TGCAACACGA CTCTGCTGCT TGTTACCATT GGGGTCACTG TGCTGGGGTT GACTGTTATT 
GTGACTGCCC TCTGTATCTA CTTTGATCTG CCCTGGTATC TCAGGATGAT GTATCAGTGG 
ACCCAGACCC GGCGCAGGGC AAGGAATGCA CCCTTAGAAG AACTCCAAAG AACCCTCCAG 
TTCCATGCTT TTATTTCATA TAGTGGGCAT GATTCTGCCT GGGTGAAGAG TGAATTACTA 
CCAAACCTAG AAAAAGAAGA TATAAGGATT TGTCTCCATG AGAGAAACTT TGTTCCTGGC 
AAGAGCATTG TGGAAAATAT CATAAACTGC ATTGAGAAAA GTTATAAGTC GATCTTTGTT 
TTGTCTCCCA ACTTTGTCCA AAGTGAGTGG TGCCATTATG AACTCTACTT TGCCCACCAC 
AATCTCTTTC ATGAAGCTTT TGATAACTTA ATCTTAATCT TGCTGGAACC TATTCCACAG 
TATTCCATTC CTAGCAGCTA TCACAAGCTC AAAAATCTCA TGGCACAAAG GACTTACTTG 
GAATGGCCCA AGGAGAAGAG CAAACATGGA CTTTTTTGGG CTAACCTAAG AGCTTCTATT 
AATATTAAAC TGATGGAGCA AGCAAAAAAA ATAGATCACA CATAG

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

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TLR1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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