CRIM1 cDNA ORF clone, Calypte anna(Anna's hummingbird)

Gene
Clones
gRNAs

Summary

Gene Symbol	CRIM1
Entrez Gene ID	103528615
Full Name	cysteine rich transmembrane BMP regulator 1
Gene Type	protein-coding
Organism	Calypte anna(Anna's hummingbird)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008493977.2	XP_008492199.2	cysteine-rich motor neuron 1 protein isoform X1
XM_030447108.1	XP_030302968.1	cysteine-rich motor neuron 1 protein isoform X2
XM_008493977.1	XP_008492199.1	cysteine-rich motor neuron 1 protein

Pathways from BioSystems
Gene Ontology

The following CRIM1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CRIM1 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)	Select
OCa818293	XM_030447108.1 Latest version!	Calypte anna cysteine rich transmembrane BMP regulator 1 (CRIM1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OCa818292	XM_008493977.2 Latest version!	Calypte anna cysteine rich transmembrane BMP regulator 1 (CRIM1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

CRIM1 ( XM_030447108.1 ) cDNA ORF clone, Calypte anna(Anna's hummingbird) -> XP_030302968.1 Calypte anna cysteine rich transmembrane BMP regulator 1 (CRIM1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OCa818293
Clone ID Related Accession (Same CDS sequence)	XM_030447108.1
Accession Version	XM_030447108.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2958bp) 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	2019-08-19
Organism	Calypte anna(Anna's hummingbird)
Product	cysteine-rich motor neuron 1 protein isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044246.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Calypte anna Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTACCTGG CAGCGGTCTC GGCGGGGAGG AGACGCCCGG GCGGAGACGG CGGCTGGCAC 
CTGGCGGCGA CGGGGTGGCT GTTTCTTCTG GCCCTGCTGC TGGGAGAGTC GGGTACGCGG 
GCTCTGGTCT GCTTACCCTG CGACGAATCC AAATGCGAAG AACCGAAGAG TTGCCCCGGT 
AGCATCGTGC TGGGGATCTG CGGTTGCTGT TTCATGTGCG CTCGACAGCG TAACGAGAGC 
TGCGGGGGAG TCTACGGGCT GCACGGAGCT TGCGACCGGG GGTTGCGCTG TGTCATCCGA 
CCCCCGCTCA ACGGGGACTC CATCACGGAG TACGAAGTGG GCGTCTGTGA AGAAGAGAAG 
CCTGATTGCT CCAAGGCCCG TTGTGAAGTC CAGTTTTCTC CTCGTTGTCC AGAAGATTCC 
ATCCTGATTG AAGGCTATGC TCCTCCTGGT GAATGCTGCC CACTCCCAAG TCGTTGTGTG 
TGTAATCCTG CAGGCTGCTT GAGGAAGGTT TGCCAGCCTG GATATTTGAA TATCTTGGTC 
TCTAAGGCAT CAGGAAAGCC AGGGGAGTGC TGTGATCTCT ATGAATGTAA ACCAGTGTTC 
AGTGTGGATT GCAGCACTGT GGAATGTCCT CCTGTTCAGC AAGTTGTTTG CCCACTGGAT 
AGCTATGAAA CTCAAGTCAG GCTGACGGCT GATGGCTGCT GTACCCTGCC CACAAGATGC 
GAGTGTCTCT CTGGTTTATG TGGTTTCCCC ATGTGCGAGG CAGGCTCCGT TCCCCAGATC 
GTCTCACGTG GAGATGGAAC ACCTGGCAAG TGCTGTGATG TCTTTGAATG TGTCAATGAA 
GTGAAACCAA CCTGTATATT TAACAGCATG GAATATTATG ATGGGGACAT GTTCCGAATG 
GACGCGTGTC GGTTTTGCCG CTGCCAAGGT GGAGTCTCTA TTTGTTTCTC TGCCCAGTGT 
GGTGAACTGC ACTGCGACAG GTACTATGTG CCAGAAGGAG AGTGCTGTCC AGTGTGTGAA 
GACCCAGTCT ATCCAGTCAA TAACCCTGCT GGCTGCTATG CCAATGGTCA GATCCAAGCT 
CACGGAGACC GCTGGCGAGA GGACGACTGC ACCTTCTGCC AGTGCATCAA TGGGGACCCG 
CACTGCGTGG CAACTGCCTG TGGGCAGAGC TGCCTGAATC CTGTGAAAGT CCCTGGGGAG 
TGCTGCCCAG TGTGTGAAGA ACCAACGTAT ATCACAATAG CTCCACCCAC CTGTGAAGTT 
TTGGTGAACT GCACTTTGAC TGAAAAAGAC TGTATCTATA GCTTCAAGCT GGACCAAAAT 
GGTTGTCGCC TTTGTCAGTG CAAAACCAGG GAGGAGCTGT GCACAGGCCT CATTTCGGGC 
TGTTCCTTGG ACTGTTCCTT TGGCTTCCAG ACTGACATCC ACAACTGTGA GATCTGTCAG 
TGCCGACCAC GGCCAAAGAA GTGCAAACCC ATTGTATGTG ACAAGTACTG TCCCTTTGGA 
TACTTGAAGA ACAAGCATGG CTGTGAAATC TGCCGGTGTA AGAAGTGTCC TGACCTGCCT 
TGTGGCAAAA TCTGCCCTAT GGGTTTCCAG CAGAACAATC ATGGCTGTGT TATCTGCAAG 
TGCAGAGAGG CAACTGCTTC TCTTATCCCT CCTGTTAAAA CAGGCTCTTG CCTGTCCATG 
GATGGGCGCC GGCATGAGAA CGAGGAGAGC TGGCACGATG GCTGCAGGGA GTGTTACTGT 
CACAACGGAA GGGAAATGTG TGCCCTGATC ACCTGCCCTG TCCCTAACTG TGGGAACCCC 
ACCATACATC CAGGGCAGTG CTGCCCATCA TGCCCAGATG AAATAATTGT GCAGAAGCCA 
GAGCTCACCA GTCCATCGAT CTGTCATGCT CCTGGTGGGG AATACTTCGT GGAAGGAGAG 
ACATGGAATA TTGATTCCTG CACACAATGC ACGTGCCACA GTGGACGTGT CCTGTGTGAG 
ACTGAAGTCT GTCCACCTCT TCTTTGTCAA AACCCCACCC GCACACAGGA CTCCTGCTGT 
CCCCAGTGCC CAGATGAGCC TCTTCAGCCT TCATCATCAA GCAATGAGAG CATGCCCAGT 
TACTGCAAAA ATGATGAAGG AGATATTTTT CTGACAGCTG AGTCCTGGAA ACCCAATGTC 
TGCACTAGTT GCATTTGCAT GGATGGTGTC ATTAGATGCT ACTCCGAGTC TTGCCCACCA 
GTATCCTGTG AGAGACCTGT TTTGAGAAAG GGACAATGTT GTCCTTACTG TATTGAGGAT 
ACAGTTCCAA AGAAAGTTGT CTGCCACTTC AATGGGAAGA CGTATGCAGA CGAGGAACGC 
TGGGACATTG ACAGCTGCAC ACACTGCTAC TGCCTGCAGG GGCAGACTCT CTGCTCCACT 
GTCAGCTGCC CACCCCTCCC TTGTGCTGAA CCCATCAATG TGGAGGGAAG CTGCTGTCCC 
ATGTGTCCAG AGATGTATGT ACCTGAGCCT ACTAACATCC CCATTGAGAA GACAAATCAT 
CGAGGAGATG TTGAACTAGA AGTACCAAAC TGGCCAACAC CAAGTGAAAA TGACATCATC 
CACATTCATA GAGATATGAG TCATCTCCAG GGAGAGTACA GAAGTGGGGG TGGGCCTCAC 
CCCAGTGAAG ATGCCTCTGT CAGCTCCATA GCCTTGGTGA CCATTCCAAT CACGATAGCG 
CTCTTACTGA TCATCGTCCT TCTGCTCATC AACCAGAAAA AGCAGTGGAT TCCAGTGTCC 
TGCTACAAAG CTCCAACAAA GCCTTCCTGC CTAAACAATC AACTGGTATA TGTGGACTGC 
AAGAAAGGTA CCATGGTACA GGTGGACAGT TCTCAGAGGA TGCTAAGAAT TGCAGACCCA 
GATTCAAGAT ACAGTGGATT TTACAGCATG CAGAAACAGA ACAACCTACA GGCAGATAAT 
TTCTATCAAA CAGTGTGA

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

RefSeq	XP_030302968.1
CDS	365..3322
Translation	MYLAAVSAGRRRPGGDGGWHLAATGWLFLLALLLGESGTRALVCLPCDESKCEEPKSCPGSIVLGICGCCFMCARQRNESCGGVYGLHGACDRGLRCVIRPPLNGDSITEYEVGVCEEEKPDCSKARCEVQFSPRCPEDSILIEGYAPPGECCPLPSRCVCNPAGCLRKVCQPGYLNILVSKASGKPGECCDLYECKPVFSVDCSTVECPPVQQVVCPLDSYETQVRLTADGCCTLPTRCECLSGLCGFPMCEAGSVPQIVSRGDGTPGKCCDVFECVNEVKPTCIFNSMEYYDGDMFRMDACRFCRCQGGVSICFSAQCGELHCDRYYVPEGECCPVCEDPVYPVNNPAGCYANGQIQAHGDRWREDDCTFCQCINGDPHCVATACGQSCLNPVKVPGECCPVCEEPTYITIAPPTCEVLVNCTLTEKDCIYSFKLDQNGCRLCQCKTREELCTGLISGCSLDCSFGFQTDIHNCEICQCRPRPKKCKPIVCDKYCPFGYLKNKHGCEICRCKKCPDLPCGKICPMGFQQNNHGCVICKCREATASLIPPVKTGSCLSMDGRRHENEESWHDGCRECYCHNGREMCALITCPVPNCGNPTIHPGQCCPSCPDEIIVQKPELTSPSICHAPGGEYFVEGETWNIDSCTQCTCHSGRVLCETEVCPPLLCQNPTRTQDSCCPQCPDEPLQPSSSSNESMPSYCKNDEGDIFLTAESWKPNVCTSCICMDGVIRCYSESCPPVSCERPVLRKGQCCPYCIEDTVPKKVVCHFNGKTYADEERWDIDSCTHCYCLQGQTLCSTVSCPPLPCAEPINVEGSCCPMCPEMYVPEPTNIPIEKTNHRGDVELEVPNWPTPSENDIIHIHRDMSHLQGEYRSGGGPHPSEDASVSSIALVTIPITIALLLIIVLLLINQKKQWIPVSCYKAPTKPSCLNNQLVYVDCKKGTMVQVDSSQRMLRIADPDSRYSGFYSMQKQNNLQADNFYQTV

Target ORF information:

RefSeq Version	XM_030447108.1
Organism	Calypte anna(Anna's hummingbird)
Definition	Calypte anna cysteine rich transmembrane BMP regulator 1 (CRIM1), transcript variant X2, mRNA.

Target ORF information:

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

XM_030447108.1

ORF Insert Sequence:

ATGTACCTGG CAGCGGTCTC GGCGGGGAGG AGACGCCCGG GCGGAGACGG CGGCTGGCAC 
CTGGCGGCGA CGGGGTGGCT GTTTCTTCTG GCCCTGCTGC TGGGAGAGTC GGGTACGCGG 
GCTCTGGTCT GCTTACCCTG CGACGAATCC AAATGCGAAG AACCGAAGAG TTGCCCCGGT 
AGCATCGTGC TGGGGATCTG CGGTTGCTGT TTCATGTGCG CTCGACAGCG TAACGAGAGC 
TGCGGGGGAG TCTACGGGCT GCACGGAGCT TGCGACCGGG GGTTGCGCTG TGTCATCCGA 
CCCCCGCTCA ACGGGGACTC CATCACGGAG TACGAAGTGG GCGTCTGTGA AGAAGAGAAG 
CCTGATTGCT CCAAGGCCCG TTGTGAAGTC CAGTTTTCTC CTCGTTGTCC AGAAGATTCC 
ATCCTGATTG AAGGCTATGC TCCTCCTGGT GAATGCTGCC CACTCCCAAG TCGTTGTGTG 
TGTAATCCTG CAGGCTGCTT GAGGAAGGTT TGCCAGCCTG GATATTTGAA TATCTTGGTC 
TCTAAGGCAT CAGGAAAGCC AGGGGAGTGC TGTGATCTCT ATGAATGTAA ACCAGTGTTC 
AGTGTGGATT GCAGCACTGT GGAATGTCCT CCTGTTCAGC AAGTTGTTTG CCCACTGGAT 
AGCTATGAAA CTCAAGTCAG GCTGACGGCT GATGGCTGCT GTACCCTGCC CACAAGATGC 
GAGTGTCTCT CTGGTTTATG TGGTTTCCCC ATGTGCGAGG CAGGCTCCGT TCCCCAGATC 
GTCTCACGTG GAGATGGAAC ACCTGGCAAG TGCTGTGATG TCTTTGAATG TGTCAATGAA 
GTGAAACCAA CCTGTATATT TAACAGCATG GAATATTATG ATGGGGACAT GTTCCGAATG 
GACGCGTGTC GGTTTTGCCG CTGCCAAGGT GGAGTCTCTA TTTGTTTCTC TGCCCAGTGT 
GGTGAACTGC ACTGCGACAG GTACTATGTG CCAGAAGGAG AGTGCTGTCC AGTGTGTGAA 
GACCCAGTCT ATCCAGTCAA TAACCCTGCT GGCTGCTATG CCAATGGTCA GATCCAAGCT 
CACGGAGACC GCTGGCGAGA GGACGACTGC ACCTTCTGCC AGTGCATCAA TGGGGACCCG 
CACTGCGTGG CAACTGCCTG TGGGCAGAGC TGCCTGAATC CTGTGAAAGT CCCTGGGGAG 
TGCTGCCCAG TGTGTGAAGA ACCAACGTAT ATCACAATAG CTCCACCCAC CTGTGAAGTT 
TTGGTGAACT GCACTTTGAC TGAAAAAGAC TGTATCTATA GCTTCAAGCT GGACCAAAAT 
GGTTGTCGCC TTTGTCAGTG CAAAACCAGG GAGGAGCTGT GCACAGGCCT CATTTCGGGC 
TGTTCCTTGG ACTGTTCCTT TGGCTTCCAG ACTGACATCC ACAACTGTGA GATCTGTCAG 
TGCCGACCAC GGCCAAAGAA GTGCAAACCC ATTGTATGTG ACAAGTACTG TCCCTTTGGA 
TACTTGAAGA ACAAGCATGG CTGTGAAATC TGCCGGTGTA AGAAGTGTCC TGACCTGCCT 
TGTGGCAAAA TCTGCCCTAT GGGTTTCCAG CAGAACAATC ATGGCTGTGT TATCTGCAAG 
TGCAGAGAGG CAACTGCTTC TCTTATCCCT CCTGTTAAAA CAGGCTCTTG CCTGTCCATG 
GATGGGCGCC GGCATGAGAA CGAGGAGAGC TGGCACGATG GCTGCAGGGA GTGTTACTGT 
CACAACGGAA GGGAAATGTG TGCCCTGATC ACCTGCCCTG TCCCTAACTG TGGGAACCCC 
ACCATACATC CAGGGCAGTG CTGCCCATCA TGCCCAGATG AAATAATTGT GCAGAAGCCA 
GAGCTCACCA GTCCATCGAT CTGTCATGCT CCTGGTGGGG AATACTTCGT GGAAGGAGAG 
ACATGGAATA TTGATTCCTG CACACAATGC ACGTGCCACA GTGGACGTGT CCTGTGTGAG 
ACTGAAGTCT GTCCACCTCT TCTTTGTCAA AACCCCACCC GCACACAGGA CTCCTGCTGT 
CCCCAGTGCC CAGATGAGCC TCTTCAGCCT TCATCATCAA GCAATGAGAG CATGCCCAGT 
TACTGCAAAA ATGATGAAGG AGATATTTTT CTGACAGCTG AGTCCTGGAA ACCCAATGTC 
TGCACTAGTT GCATTTGCAT GGATGGTGTC ATTAGATGCT ACTCCGAGTC TTGCCCACCA 
GTATCCTGTG AGAGACCTGT TTTGAGAAAG GGACAATGTT GTCCTTACTG TATTGAGGAT 
ACAGTTCCAA AGAAAGTTGT CTGCCACTTC AATGGGAAGA CGTATGCAGA CGAGGAACGC 
TGGGACATTG ACAGCTGCAC ACACTGCTAC TGCCTGCAGG GGCAGACTCT CTGCTCCACT 
GTCAGCTGCC CACCCCTCCC TTGTGCTGAA CCCATCAATG TGGAGGGAAG CTGCTGTCCC 
ATGTGTCCAG AGATGTATGT ACCTGAGCCT ACTAACATCC CCATTGAGAA GACAAATCAT 
CGAGGAGATG TTGAACTAGA AGTACCAAAC TGGCCAACAC CAAGTGAAAA TGACATCATC 
CACATTCATA GAGATATGAG TCATCTCCAG GGAGAGTACA GAAGTGGGGG TGGGCCTCAC 
CCCAGTGAAG ATGCCTCTGT CAGCTCCATA GCCTTGGTGA CCATTCCAAT CACGATAGCG 
CTCTTACTGA TCATCGTCCT TCTGCTCATC AACCAGAAAA AGCAGTGGAT TCCAGTGTCC 
TGCTACAAAG CTCCAACAAA GCCTTCCTGC CTAAACAATC AACTGGTATA TGTGGACTGC 
AAGAAAGGTA CCATGGTACA GGTGGACAGT TCTCAGAGGA TGCTAAGAAT TGCAGACCCA 
GATTCAAGAT ACAGTGGATT TTACAGCATG CAGAAACAGA ACAACCTACA GGCAGATAAT 
TTCTATCAAA CAGTGTGA

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

CRIM1 ( XM_008493977.2 ) cDNA ORF clone, Calypte anna(Anna's hummingbird) -> XP_008492199.2 Calypte anna cysteine rich transmembrane BMP regulator 1 (CRIM1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OCa818292
Clone ID Related Accession (Same CDS sequence)	XM_008493977.2
Accession Version	XM_008493977.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3132bp) 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	2019-08-19
Organism	Calypte anna(Anna's hummingbird)
Product	cysteine-rich motor neuron 1 protein isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044246.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 20, 2019 this sequence version replaced XM_008493977.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Calypte anna Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTACCTGG CAGCGGTCTC GGCGGGGAGG AGACGCCCGG GCGGAGACGG CGGCTGGCAC 
CTGGCGGCGA CGGGGTGGCT GTTTCTTCTG GCCCTGCTGC TGGGAGAGTC GGGTACGCGG 
GCTCTGGTCT GCTTACCCTG CGACGAATCC AAATGCGAAG AACCGAAGAG TTGCCCCGGT 
AGCATCGTGC TGGGGATCTG CGGTTGCTGT TTCATGTGCG CTCGACAGCG TAACGAGAGC 
TGCGGGGGAG TCTACGGGCT GCACGGAGCT TGCGACCGGG GGTTGCGCTG TGTCATCCGA 
CCCCCGCTCA ACGGGGACTC CATCACGGAG TACGAAGTGG GCGTCTGTGA AGATGAAAAC 
TGGGATGATG ATCAGCTTCT TGGATTTGAA CCATGCAATG AAAACCTTAT AACAGGTTGT 
AACATAATCA ATGGGAAATG CGAATGTGAC ACCATTCGGA CCTGTAATAA TCCATTTGAA 
TTTCCAAGCC GGGATACTTG CCTGTCAGCC TTAAAAAGGA TTGAAGAAGA GAAGCCTGAT 
TGCTCCAAGG CCCGTTGTGA AGTCCAGTTT TCTCCTCGTT GTCCAGAAGA TTCCATCCTG 
ATTGAAGGCT ATGCTCCTCC TGGTGAATGC TGCCCACTCC CAAGTCGTTG TGTGTGTAAT 
CCTGCAGGCT GCTTGAGGAA GGTTTGCCAG CCTGGATATT TGAATATCTT GGTCTCTAAG 
GCATCAGGAA AGCCAGGGGA GTGCTGTGAT CTCTATGAAT GTAAACCAGT GTTCAGTGTG 
GATTGCAGCA CTGTGGAATG TCCTCCTGTT CAGCAAGTTG TTTGCCCACT GGATAGCTAT 
GAAACTCAAG TCAGGCTGAC GGCTGATGGC TGCTGTACCC TGCCCACAAG ATGCGAGTGT 
CTCTCTGGTT TATGTGGTTT CCCCATGTGC GAGGCAGGCT CCGTTCCCCA GATCGTCTCA 
CGTGGAGATG GAACACCTGG CAAGTGCTGT GATGTCTTTG AATGTGTCAA TGAAGTGAAA 
CCAACCTGTA TATTTAACAG CATGGAATAT TATGATGGGG ACATGTTCCG AATGGACGCG 
TGTCGGTTTT GCCGCTGCCA AGGTGGAGTC TCTATTTGTT TCTCTGCCCA GTGTGGTGAA 
CTGCACTGCG ACAGGTACTA TGTGCCAGAA GGAGAGTGCT GTCCAGTGTG TGAAGACCCA 
GTCTATCCAG TCAATAACCC TGCTGGCTGC TATGCCAATG GTCAGATCCA AGCTCACGGA 
GACCGCTGGC GAGAGGACGA CTGCACCTTC TGCCAGTGCA TCAATGGGGA CCCGCACTGC 
GTGGCAACTG CCTGTGGGCA GAGCTGCCTG AATCCTGTGA AAGTCCCTGG GGAGTGCTGC 
CCAGTGTGTG AAGAACCAAC GTATATCACA ATAGCTCCAC CCACCTGTGA AGTTTTGGTG 
AACTGCACTT TGACTGAAAA AGACTGTATC TATAGCTTCA AGCTGGACCA AAATGGTTGT 
CGCCTTTGTC AGTGCAAAAC CAGGGAGGAG CTGTGCACAG GCCTCATTTC GGGCTGTTCC 
TTGGACTGTT CCTTTGGCTT CCAGACTGAC ATCCACAACT GTGAGATCTG TCAGTGCCGA 
CCACGGCCAA AGAAGTGCAA ACCCATTGTA TGTGACAAGT ACTGTCCCTT TGGATACTTG 
AAGAACAAGC ATGGCTGTGA AATCTGCCGG TGTAAGAAGT GTCCTGACCT GCCTTGTGGC 
AAAATCTGCC CTATGGGTTT CCAGCAGAAC AATCATGGCT GTGTTATCTG CAAGTGCAGA 
GAGGCAACTG CTTCTCTTAT CCCTCCTGTT AAAACAGGCT CTTGCCTGTC CATGGATGGG 
CGCCGGCATG AGAACGAGGA GAGCTGGCAC GATGGCTGCA GGGAGTGTTA CTGTCACAAC 
GGAAGGGAAA TGTGTGCCCT GATCACCTGC CCTGTCCCTA ACTGTGGGAA CCCCACCATA 
CATCCAGGGC AGTGCTGCCC ATCATGCCCA GATGAAATAA TTGTGCAGAA GCCAGAGCTC 
ACCAGTCCAT CGATCTGTCA TGCTCCTGGT GGGGAATACT TCGTGGAAGG AGAGACATGG 
AATATTGATT CCTGCACACA ATGCACGTGC CACAGTGGAC GTGTCCTGTG TGAGACTGAA 
GTCTGTCCAC CTCTTCTTTG TCAAAACCCC ACCCGCACAC AGGACTCCTG CTGTCCCCAG 
TGCCCAGATG AGCCTCTTCA GCCTTCATCA TCAAGCAATG AGAGCATGCC CAGTTACTGC 
AAAAATGATG AAGGAGATAT TTTTCTGACA GCTGAGTCCT GGAAACCCAA TGTCTGCACT 
AGTTGCATTT GCATGGATGG TGTCATTAGA TGCTACTCCG AGTCTTGCCC ACCAGTATCC 
TGTGAGAGAC CTGTTTTGAG AAAGGGACAA TGTTGTCCTT ACTGTATTGA GGATACAGTT 
CCAAAGAAAG TTGTCTGCCA CTTCAATGGG AAGACGTATG CAGACGAGGA ACGCTGGGAC 
ATTGACAGCT GCACACACTG CTACTGCCTG CAGGGGCAGA CTCTCTGCTC CACTGTCAGC 
TGCCCACCCC TCCCTTGTGC TGAACCCATC AATGTGGAGG GAAGCTGCTG TCCCATGTGT 
CCAGAGATGT ATGTACCTGA GCCTACTAAC ATCCCCATTG AGAAGACAAA TCATCGAGGA 
GATGTTGAAC TAGAAGTACC AAACTGGCCA ACACCAAGTG AAAATGACAT CATCCACATT 
CATAGAGATA TGAGTCATCT CCAGGGAGAG TACAGAAGTG GGGGTGGGCC TCACCCCAGT 
GAAGATGCCT CTGTCAGCTC CATAGCCTTG GTGACCATTC CAATCACGAT AGCGCTCTTA 
CTGATCATCG TCCTTCTGCT CATCAACCAG AAAAAGCAGT GGATTCCAGT GTCCTGCTAC 
AAAGCTCCAA CAAAGCCTTC CTGCCTAAAC AATCAACTGG TATATGTGGA CTGCAAGAAA 
GGTACCATGG TACAGGTGGA CAGTTCTCAG AGGATGCTAA GAATTGCAGA CCCAGATTCA 
AGATACAGTG GATTTTACAG CATGCAGAAA CAGAACAACC TACAGGCAGA TAATTTCTAT 
CAAACAGTGT GA

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

RefSeq	XP_008492199.2
CDS	365..3496
Translation	MYLAAVSAGRRRPGGDGGWHLAATGWLFLLALLLGESGTRALVCLPCDESKCEEPKSCPGSIVLGICGCCFMCARQRNESCGGVYGLHGACDRGLRCVIRPPLNGDSITEYEVGVCEDENWDDDQLLGFEPCNENLITGCNIINGKCECDTIRTCNNPFEFPSRDTCLSALKRIEEEKPDCSKARCEVQFSPRCPEDSILIEGYAPPGECCPLPSRCVCNPAGCLRKVCQPGYLNILVSKASGKPGECCDLYECKPVFSVDCSTVECPPVQQVVCPLDSYETQVRLTADGCCTLPTRCECLSGLCGFPMCEAGSVPQIVSRGDGTPGKCCDVFECVNEVKPTCIFNSMEYYDGDMFRMDACRFCRCQGGVSICFSAQCGELHCDRYYVPEGECCPVCEDPVYPVNNPAGCYANGQIQAHGDRWREDDCTFCQCINGDPHCVATACGQSCLNPVKVPGECCPVCEEPTYITIAPPTCEVLVNCTLTEKDCIYSFKLDQNGCRLCQCKTREELCTGLISGCSLDCSFGFQTDIHNCEICQCRPRPKKCKPIVCDKYCPFGYLKNKHGCEICRCKKCPDLPCGKICPMGFQQNNHGCVICKCREATASLIPPVKTGSCLSMDGRRHENEESWHDGCRECYCHNGREMCALITCPVPNCGNPTIHPGQCCPSCPDEIIVQKPELTSPSICHAPGGEYFVEGETWNIDSCTQCTCHSGRVLCETEVCPPLLCQNPTRTQDSCCPQCPDEPLQPSSSSNESMPSYCKNDEGDIFLTAESWKPNVCTSCICMDGVIRCYSESCPPVSCERPVLRKGQCCPYCIEDTVPKKVVCHFNGKTYADEERWDIDSCTHCYCLQGQTLCSTVSCPPLPCAEPINVEGSCCPMCPEMYVPEPTNIPIEKTNHRGDVELEVPNWPTPSENDIIHIHRDMSHLQGEYRSGGGPHPSEDASVSSIALVTIPITIALLLIIVLLLINQKKQWIPVSCYKAPTKPSCLNNQLVYVDCKKGTMVQVDSSQRMLRIADPDSRYSGFYSMQKQNNLQADNFYQTV

Target ORF information:

RefSeq Version	XM_008493977.2
Organism	Calypte anna(Anna's hummingbird)
Definition	Calypte anna cysteine rich transmembrane BMP regulator 1 (CRIM1), transcript variant X1, mRNA.

Target ORF information:

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

XM_008493977.2

ORF Insert Sequence:

ATGTACCTGG CAGCGGTCTC GGCGGGGAGG AGACGCCCGG GCGGAGACGG CGGCTGGCAC 
CTGGCGGCGA CGGGGTGGCT GTTTCTTCTG GCCCTGCTGC TGGGAGAGTC GGGTACGCGG 
GCTCTGGTCT GCTTACCCTG CGACGAATCC AAATGCGAAG AACCGAAGAG TTGCCCCGGT 
AGCATCGTGC TGGGGATCTG CGGTTGCTGT TTCATGTGCG CTCGACAGCG TAACGAGAGC 
TGCGGGGGAG TCTACGGGCT GCACGGAGCT TGCGACCGGG GGTTGCGCTG TGTCATCCGA 
CCCCCGCTCA ACGGGGACTC CATCACGGAG TACGAAGTGG GCGTCTGTGA AGATGAAAAC 
TGGGATGATG ATCAGCTTCT TGGATTTGAA CCATGCAATG AAAACCTTAT AACAGGTTGT 
AACATAATCA ATGGGAAATG CGAATGTGAC ACCATTCGGA CCTGTAATAA TCCATTTGAA 
TTTCCAAGCC GGGATACTTG CCTGTCAGCC TTAAAAAGGA TTGAAGAAGA GAAGCCTGAT 
TGCTCCAAGG CCCGTTGTGA AGTCCAGTTT TCTCCTCGTT GTCCAGAAGA TTCCATCCTG 
ATTGAAGGCT ATGCTCCTCC TGGTGAATGC TGCCCACTCC CAAGTCGTTG TGTGTGTAAT 
CCTGCAGGCT GCTTGAGGAA GGTTTGCCAG CCTGGATATT TGAATATCTT GGTCTCTAAG 
GCATCAGGAA AGCCAGGGGA GTGCTGTGAT CTCTATGAAT GTAAACCAGT GTTCAGTGTG 
GATTGCAGCA CTGTGGAATG TCCTCCTGTT CAGCAAGTTG TTTGCCCACT GGATAGCTAT 
GAAACTCAAG TCAGGCTGAC GGCTGATGGC TGCTGTACCC TGCCCACAAG ATGCGAGTGT 
CTCTCTGGTT TATGTGGTTT CCCCATGTGC GAGGCAGGCT CCGTTCCCCA GATCGTCTCA 
CGTGGAGATG GAACACCTGG CAAGTGCTGT GATGTCTTTG AATGTGTCAA TGAAGTGAAA 
CCAACCTGTA TATTTAACAG CATGGAATAT TATGATGGGG ACATGTTCCG AATGGACGCG 
TGTCGGTTTT GCCGCTGCCA AGGTGGAGTC TCTATTTGTT TCTCTGCCCA GTGTGGTGAA 
CTGCACTGCG ACAGGTACTA TGTGCCAGAA GGAGAGTGCT GTCCAGTGTG TGAAGACCCA 
GTCTATCCAG TCAATAACCC TGCTGGCTGC TATGCCAATG GTCAGATCCA AGCTCACGGA 
GACCGCTGGC GAGAGGACGA CTGCACCTTC TGCCAGTGCA TCAATGGGGA CCCGCACTGC 
GTGGCAACTG CCTGTGGGCA GAGCTGCCTG AATCCTGTGA AAGTCCCTGG GGAGTGCTGC 
CCAGTGTGTG AAGAACCAAC GTATATCACA ATAGCTCCAC CCACCTGTGA AGTTTTGGTG 
AACTGCACTT TGACTGAAAA AGACTGTATC TATAGCTTCA AGCTGGACCA AAATGGTTGT 
CGCCTTTGTC AGTGCAAAAC CAGGGAGGAG CTGTGCACAG GCCTCATTTC GGGCTGTTCC 
TTGGACTGTT CCTTTGGCTT CCAGACTGAC ATCCACAACT GTGAGATCTG TCAGTGCCGA 
CCACGGCCAA AGAAGTGCAA ACCCATTGTA TGTGACAAGT ACTGTCCCTT TGGATACTTG 
AAGAACAAGC ATGGCTGTGA AATCTGCCGG TGTAAGAAGT GTCCTGACCT GCCTTGTGGC 
AAAATCTGCC CTATGGGTTT CCAGCAGAAC AATCATGGCT GTGTTATCTG CAAGTGCAGA 
GAGGCAACTG CTTCTCTTAT CCCTCCTGTT AAAACAGGCT CTTGCCTGTC CATGGATGGG 
CGCCGGCATG AGAACGAGGA GAGCTGGCAC GATGGCTGCA GGGAGTGTTA CTGTCACAAC 
GGAAGGGAAA TGTGTGCCCT GATCACCTGC CCTGTCCCTA ACTGTGGGAA CCCCACCATA 
CATCCAGGGC AGTGCTGCCC ATCATGCCCA GATGAAATAA TTGTGCAGAA GCCAGAGCTC 
ACCAGTCCAT CGATCTGTCA TGCTCCTGGT GGGGAATACT TCGTGGAAGG AGAGACATGG 
AATATTGATT CCTGCACACA ATGCACGTGC CACAGTGGAC GTGTCCTGTG TGAGACTGAA 
GTCTGTCCAC CTCTTCTTTG TCAAAACCCC ACCCGCACAC AGGACTCCTG CTGTCCCCAG 
TGCCCAGATG AGCCTCTTCA GCCTTCATCA TCAAGCAATG AGAGCATGCC CAGTTACTGC 
AAAAATGATG AAGGAGATAT TTTTCTGACA GCTGAGTCCT GGAAACCCAA TGTCTGCACT 
AGTTGCATTT GCATGGATGG TGTCATTAGA TGCTACTCCG AGTCTTGCCC ACCAGTATCC 
TGTGAGAGAC CTGTTTTGAG AAAGGGACAA TGTTGTCCTT ACTGTATTGA GGATACAGTT 
CCAAAGAAAG TTGTCTGCCA CTTCAATGGG AAGACGTATG CAGACGAGGA ACGCTGGGAC 
ATTGACAGCT GCACACACTG CTACTGCCTG CAGGGGCAGA CTCTCTGCTC CACTGTCAGC 
TGCCCACCCC TCCCTTGTGC TGAACCCATC AATGTGGAGG GAAGCTGCTG TCCCATGTGT 
CCAGAGATGT ATGTACCTGA GCCTACTAAC ATCCCCATTG AGAAGACAAA TCATCGAGGA 
GATGTTGAAC TAGAAGTACC AAACTGGCCA ACACCAAGTG AAAATGACAT CATCCACATT 
CATAGAGATA TGAGTCATCT CCAGGGAGAG TACAGAAGTG GGGGTGGGCC TCACCCCAGT 
GAAGATGCCT CTGTCAGCTC CATAGCCTTG GTGACCATTC CAATCACGAT AGCGCTCTTA 
CTGATCATCG TCCTTCTGCT CATCAACCAG AAAAAGCAGT GGATTCCAGT GTCCTGCTAC 
AAAGCTCCAA CAAAGCCTTC CTGCCTAAAC AATCAACTGG TATATGTGGA CTGCAAGAAA 
GGTACCATGG TACAGGTGGA CAGTTCTCAG AGGATGCTAA GAATTGCAGA CCCAGATTCA 
AGATACAGTG GATTTTACAG CATGCAGAAA CAGAACAACC TACAGGCAGA TAATTTCTAT 
CAAACAGTGT GA