| Gene Symbol | LIPE |
| Entrez Gene ID | 100479605 |
| Full Name | lipase E, hormone sensitive type |
| Gene Type | protein-coding |
| Organism | Ailuropoda melanoleuca(giant panda) |
- REAGENT SERVICES Hot!
-
PRODUCTS
-
Most Popular Reagents
-
Instruments
-
Antibodies
-
ELISA Kits
-
Protein Electrophoresis and Blotting
-
Protein and Antibody Purification
-
Recombinant Proteins
-
Molecular Biology
-
Stable Cell Lines
-
Cell Isolation and Activation
-
IVD Raw Materials
-
Therapy Applications
-
Resources
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Anti-Camelid VHH]()
MonoRab™ Anti-VHH Antibodies
-
![ELISA Kits]()
ELISA Kits
-
![Precast Gels]()
SurePAGE™ Precast Gels
-
![Quatro ProAb Automated Protein and Antibody Purification System]()
AmMag™ Quatro ProAb Automated Protein and Antibody Purification System
-
![Target Proteins]()
Target Proteins
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Stable Cell Lines]()
Stable Cell Lines
-
![Cell Isolation and Activation]()
Cell Isolation and Activation
-
![Quick
Order]()
Quick Order
-
![Quick
Order]()
Quick Order
- APPLICATIONS
- RESOURCES
- ABOUT US
LIPE cDNA ORF clone, Ailuropoda melanoleuca(giant panda)
-
Gene
-
Clones
gRNAs
The following LIPE gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LIPE 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.
-
Reference Sequences (Refseq)
CloneID OAc96109 Clone ID Related Accession (Same CDS sequence) XM_019804572.1 Accession Version XM_019804572.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3192bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag 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 hormone-sensitive lipase Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218037.1) 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##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGAAACCGG GGAGAGCAAC ACCTCCCGAG AGGGAAGTAA CAACAGTGGA GCCAGGTTCT
AAGTCAGTAT CTAGGCCTGA CTTGGAGCTT AAGCCACCCC AGACACCTAT CACCCAGCCA
GAGCCTGGGC CAAAAGTGAC AGCCACAGCC CAGCCAGCAT CTAAGACTCA TCAGCGACCC
AGCACTCCAC ATGAGGCCGC TCCACAGCAA AGACCCCTCA CTCAGCAGGA GACCCTTGCC
CAACATGGAG CTGAATCCCA GCAGGAAATC AGCACCCAAC AAAATTCACC TTTGCAGCAG
AAACTTCTTG CCCCGCAGGA GCCTGCACCA CAGCAATCAC CCCCCATGCA CCGGGAGCCC
TCCTCTCAAG AGGAAGCTGC CTCACAGAAG GGACCTGGGC CAGGAAAAGA ATCTGAAACT
CAACAGGAGC CAGAAATGAG AGAGGCACAT GTTGCCCAGC CAGGACCTGG CCCAGCACAG
CAACCTCCAG CTCAACAGGA AGCTGGATCA ACACCTCCAG CCCAGCCTAG ACCTGGACCC
AAAAATGGAT CACCTCCCCA GACTGAATCT ATATTCCAAG AGAGACTGAG ACAGTCAGAC
CCTATAGCCC AGCAAAGAGC TCCAGCCCGA GGAGCCAAAT CCCAGTTGAG ATCTTTGACC
GAGTGGGGAT TTCTATCAAA ACTCCACCAA ATATCCACAC AGCAACCAGC CTCAGAGTGG
AGGACGTTTT ATGAATGGGT CACAGATTCT GACTCAGAAC CAGATGTGGG GTCTCCATTG
AAGAGGAGTT CATCAGCCAA GAGGGGTGGA ACAGTGGCCC AGGGAATGAA GCTGGCCTTC
AAGGGGAAAC ATGAAGTGGC ATCAGGGTAT GGTGGGACAT CAGCACACGG GAAGAAAACT
GGCAGCCAGA ATCACAGACA CTACAGGGAC ACAGCCTCGC GGCTCACACA CAGCATGGAC
CTGCGCACGA TGACACAGTC GCTGGTGACC CTGGCGGAAG ACAACATGGC CTTCTTCTCG
AGCCAGGGCC CCGGGGAGAC AGCACGACGT CTGTCAGGCG TCTTTGCGGG GATTCGGGAG
CAGGCGCTGG GGCTGGAGCC GGCCCTGGGC CGCCTGCTGA GCGTGGCGCA CCTCTTCGAC
CTGGACGCCG AGACACCGGC CAACGGGTAC CGCAGCCTGG TGCACACAGC CCGCTGCTGC
CTGGCGCACC TGCTGCACAA ATCCCGCTAC GTGGCCTCCA ACCGCCGGAG CATCTTCTTC
CGCACCAGCC ACAACCTGGC GGAACTCGAG GCCTACCTGG CCGCCCTCAC CCAGCTCCGT
GCCCTAGCCT ACTATGCCCA GCGCCTGCTG GCCACGAACC GGCCCGGGGG GCTCTTCTTC
GAGGGCGATG AGGGGCTCAT CACTGAGTTC CTGCGCGAGT ACGTCACCCT GCATAAGGGC
TGCTTCTATG GCCGCTGTCT GGGCTTCCAG TTCACGCCTG CCATCCGGCC ATTCCTGCAG
ACCATCTCCA TCGGGCTCGT GTCCTTCGGG GAGCACTACA AGCGCAATGA AACAGGCCTT
GGTGTGACCG CCAGCTCCCT CTTCACCAGC GGCCGCTTCG CCATCGACCC AGAGCTGCGT
GGGGCTGAGT TTGAGCGGAT CATACAGAAC CTAGATGTGC ATTTCTGGAA AGCCTTCTGG
AATATCACCG AGATTGAGGT GCTATCGTCT CTAGCAAACA TGACATCAGC TACCGTGAGG
GTAAGCCGCC TGCTCAGTCT GCCACCAGAG GCCTTTGAGA TGCCACTGAC TACTGACCCC
AAGCTCACGG TCACCATCTC ACCCCCCGTG GCCCACTCGG GCCCCGGGCC GGTCCTCGTC
AGGCTCATCT CCTATGACCT ACGTGAAGGA CAGGACAGTG AGGAGCTCAG CAGCCTGATG
AAGTCCGAGG GGCCCCGGAG CCTGGACCTG CGGCCACGCC CCCAGCAGGC ACCCCGCTCA
CAGTCCCTGG TGGTGCACAT CCATGGTGGT GGCTTCGTGG CCCAGACCTC CAGATCCCAT
GAGCCCTACC TCAAGAGCTG GGCCCAGGAG CTGGGCGTCC CCATTCTCTC CATCGACTAC
TCCCTGGCCC CCGAGGCCCC CTTCCCCCGT GCGCTGGAGG AGTGCTTCTA TGCTTACTGC
TGGGCTGTCA AGCACTGTGC CCTCCTCGGT TCAACAGGGG AACGGATATG CCTCGCAGGG
GACAGCGCAG GTGGGAACCT CTGCTTCACC GTGTCCCTCC GGGCAGCAGC CTACGGGGTG
CGGGTGCCGG ATGGCATCAT GGCAGCTTAC CCGGCCACGA TGCTACAATC TACGGCCTCT
CCCTCCCGCC TTCTGAGCCT CATGGACCCC CTGCTGCCCC TCAGCGTGCT CACCAAGTGT
GTCAGCGCCT ACGCTGGTGG AGAGACAGAG GACCACTCTG ACTCGGACCA GAAGGCGCTG
GGCATGATGG GGCTGGTGCG GCGGGACACG GCCCTGCTCT TCCGAGACCT CCGCGTGGGC
GCCTCCTCGT GGCTCCACTC CTTCCTGGAC CTGAGTGGGC ACAAGTCCCA CGCGAACTCA
GTGCCCACGG CAGAGCCAAT GCGGCGCAGC GTGTCTGAGG CAGCCCTGGC CCAGCCTGAG
GGCCCGCTGG GCACGGACTC CCTCAAGAGC CTGACACTAC ATGACCTGAG CCTAAAGGGC
AGCTCTGACA CGTCAGACAC CCCGGAGCTG TCACTGTCTG CAGAGACACT TGGCCCCTCC
ACGCCCTCCG ATGTCAACTT CTTAGTTGGC CCGGAGGACG CCCCCGAGGC TAAGGCCCGG
GATGAGCTGA GCACCAAGGA CCAAGGTTGT GGCGCCCGGG CCGCCTTCCC TGAGGGTTTC
CACCCCAGGC GCTCCAGCCA GGGCGCCACC CGGATGCCCC TCTGCTCCTC GCCCATTGTC
AAGAACCCCT TCATGTCGCC GCTGCTGGCA TCTGACAGCA TGCTACAGAG CCTGCCGCCC
GTGCACATTG TGGCGCGGCG GCTGCGCGGC CTGGGCAAGC CCGTGTCGCT ACGCGTGGTG
GAGGACCTGC CGCACGGCTT CCTGAGCCTG GCGGCGCTGT GCCGGGAGAC GCGGCAGGCC
GCGGCGCAGT GCGTGGAGTG CATCCGTCTC ATCTTCGCGC TGCCCGCCCC GCCCGCCGCG
CCGCGGGTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019660131.1 CDS 273..3464 Translation 
Target ORF information:
RefSeq Version XM_019804572.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca lipase E, hormone sensitive type (LIPE), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_019804572.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGAAACCGG GGAGAGCAAC ACCTCCCGAG AGGGAAGTAA CAACAGTGGA GCCAGGTTCT
AAGTCAGTAT CTAGGCCTGA CTTGGAGCTT AAGCCACCCC AGACACCTAT CACCCAGCCA
GAGCCTGGGC CAAAAGTGAC AGCCACAGCC CAGCCAGCAT CTAAGACTCA TCAGCGACCC
AGCACTCCAC ATGAGGCCGC TCCACAGCAA AGACCCCTCA CTCAGCAGGA GACCCTTGCC
CAACATGGAG CTGAATCCCA GCAGGAAATC AGCACCCAAC AAAATTCACC TTTGCAGCAG
AAACTTCTTG CCCCGCAGGA GCCTGCACCA CAGCAATCAC CCCCCATGCA CCGGGAGCCC
TCCTCTCAAG AGGAAGCTGC CTCACAGAAG GGACCTGGGC CAGGAAAAGA ATCTGAAACT
CAACAGGAGC CAGAAATGAG AGAGGCACAT GTTGCCCAGC CAGGACCTGG CCCAGCACAG
CAACCTCCAG CTCAACAGGA AGCTGGATCA ACACCTCCAG CCCAGCCTAG ACCTGGACCC
AAAAATGGAT CACCTCCCCA GACTGAATCT ATATTCCAAG AGAGACTGAG ACAGTCAGAC
CCTATAGCCC AGCAAAGAGC TCCAGCCCGA GGAGCCAAAT CCCAGTTGAG ATCTTTGACC
GAGTGGGGAT TTCTATCAAA ACTCCACCAA ATATCCACAC AGCAACCAGC CTCAGAGTGG
AGGACGTTTT ATGAATGGGT CACAGATTCT GACTCAGAAC CAGATGTGGG GTCTCCATTG
AAGAGGAGTT CATCAGCCAA GAGGGGTGGA ACAGTGGCCC AGGGAATGAA GCTGGCCTTC
AAGGGGAAAC ATGAAGTGGC ATCAGGGTAT GGTGGGACAT CAGCACACGG GAAGAAAACT
GGCAGCCAGA ATCACAGACA CTACAGGGAC ACAGCCTCGC GGCTCACACA CAGCATGGAC
CTGCGCACGA TGACACAGTC GCTGGTGACC CTGGCGGAAG ACAACATGGC CTTCTTCTCG
AGCCAGGGCC CCGGGGAGAC AGCACGACGT CTGTCAGGCG TCTTTGCGGG GATTCGGGAG
CAGGCGCTGG GGCTGGAGCC GGCCCTGGGC CGCCTGCTGA GCGTGGCGCA CCTCTTCGAC
CTGGACGCCG AGACACCGGC CAACGGGTAC CGCAGCCTGG TGCACACAGC CCGCTGCTGC
CTGGCGCACC TGCTGCACAA ATCCCGCTAC GTGGCCTCCA ACCGCCGGAG CATCTTCTTC
CGCACCAGCC ACAACCTGGC GGAACTCGAG GCCTACCTGG CCGCCCTCAC CCAGCTCCGT
GCCCTAGCCT ACTATGCCCA GCGCCTGCTG GCCACGAACC GGCCCGGGGG GCTCTTCTTC
GAGGGCGATG AGGGGCTCAT CACTGAGTTC CTGCGCGAGT ACGTCACCCT GCATAAGGGC
TGCTTCTATG GCCGCTGTCT GGGCTTCCAG TTCACGCCTG CCATCCGGCC ATTCCTGCAG
ACCATCTCCA TCGGGCTCGT GTCCTTCGGG GAGCACTACA AGCGCAATGA AACAGGCCTT
GGTGTGACCG CCAGCTCCCT CTTCACCAGC GGCCGCTTCG CCATCGACCC AGAGCTGCGT
GGGGCTGAGT TTGAGCGGAT CATACAGAAC CTAGATGTGC ATTTCTGGAA AGCCTTCTGG
AATATCACCG AGATTGAGGT GCTATCGTCT CTAGCAAACA TGACATCAGC TACCGTGAGG
GTAAGCCGCC TGCTCAGTCT GCCACCAGAG GCCTTTGAGA TGCCACTGAC TACTGACCCC
AAGCTCACGG TCACCATCTC ACCCCCCGTG GCCCACTCGG GCCCCGGGCC GGTCCTCGTC
AGGCTCATCT CCTATGACCT ACGTGAAGGA CAGGACAGTG AGGAGCTCAG CAGCCTGATG
AAGTCCGAGG GGCCCCGGAG CCTGGACCTG CGGCCACGCC CCCAGCAGGC ACCCCGCTCA
CAGTCCCTGG TGGTGCACAT CCATGGTGGT GGCTTCGTGG CCCAGACCTC CAGATCCCAT
GAGCCCTACC TCAAGAGCTG GGCCCAGGAG CTGGGCGTCC CCATTCTCTC CATCGACTAC
TCCCTGGCCC CCGAGGCCCC CTTCCCCCGT GCGCTGGAGG AGTGCTTCTA TGCTTACTGC
TGGGCTGTCA AGCACTGTGC CCTCCTCGGT TCAACAGGGG AACGGATATG CCTCGCAGGG
GACAGCGCAG GTGGGAACCT CTGCTTCACC GTGTCCCTCC GGGCAGCAGC CTACGGGGTG
CGGGTGCCGG ATGGCATCAT GGCAGCTTAC CCGGCCACGA TGCTACAATC TACGGCCTCT
CCCTCCCGCC TTCTGAGCCT CATGGACCCC CTGCTGCCCC TCAGCGTGCT CACCAAGTGT
GTCAGCGCCT ACGCTGGTGG AGAGACAGAG GACCACTCTG ACTCGGACCA GAAGGCGCTG
GGCATGATGG GGCTGGTGCG GCGGGACACG GCCCTGCTCT TCCGAGACCT CCGCGTGGGC
GCCTCCTCGT GGCTCCACTC CTTCCTGGAC CTGAGTGGGC ACAAGTCCCA CGCGAACTCA
GTGCCCACGG CAGAGCCAAT GCGGCGCAGC GTGTCTGAGG CAGCCCTGGC CCAGCCTGAG
GGCCCGCTGG GCACGGACTC CCTCAAGAGC CTGACACTAC ATGACCTGAG CCTAAAGGGC
AGCTCTGACA CGTCAGACAC CCCGGAGCTG TCACTGTCTG CAGAGACACT TGGCCCCTCC
ACGCCCTCCG ATGTCAACTT CTTAGTTGGC CCGGAGGACG CCCCCGAGGC TAAGGCCCGG
GATGAGCTGA GCACCAAGGA CCAAGGTTGT GGCGCCCGGG CCGCCTTCCC TGAGGGTTTC
CACCCCAGGC GCTCCAGCCA GGGCGCCACC CGGATGCCCC TCTGCTCCTC GCCCATTGTC
AAGAACCCCT TCATGTCGCC GCTGCTGGCA TCTGACAGCA TGCTACAGAG CCTGCCGCCC
GTGCACATTG TGGCGCGGCG GCTGCGCGGC CTGGGCAAGC CCGTGTCGCT ACGCGTGGTG
GAGGACCTGC CGCACGGCTT CCTGAGCCTG GCGGCGCTGT GCCGGGAGAC GCGGCAGGCC
GCGGCGCAGT GCGTGGAGTG CATCCGTCTC ATCTTCGCGC TGCCCGCCCC GCCCGCCGCG
CCGCGGGTCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- COVID-19 Immunity: Balancing B Cell and T Cell Responses
- Revolutionary first look into the structural basis of P2X7 ion channel cytotoxicity
- Qualifying COVID-19 Convalescent Plasma with cPass™ Neutralizing Antibody Test
- Tackling Tumor Relapse with More Sensitive Engineered T Cells
- Delving into the World of Cyclic Peptides: Harnessing the Power of Circular Molecules for Innovative Therapeutic Solutions
- Alanine Scanning Mutagenesis: A Versatile Approach to Map Proteins'
- CRACK the CRISPR cell line construction bottlenecks- Genome Editing CRISPR
- De novo-designed bioactive protein switch controls biological processes in living cells
-
-
-
PubMed
-
