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A strain of highly pathogenic porcine reproductive and respiratory syndrome virus: genomic characterization, pathogenicity, and construction of an infectious full-length cDNA clone
- Mariah
- 0
Porcine reproductive and respiratory syndrome (PRRS) is a extremely contagious infectious illness attributable to porcine reproductive and respiratory syndrome virus (PRRSV), which inflicts main financial losses on the worldwide pig farming business.
Primarily based on its similarity to extremely pathogenic strains, the GDzj pressure remoted on this examine was predicted to be extremely pathogenic. We subsequently analyzed the pathogenicity of this pressure experimentally in piglets.
All piglets challenged with this virus skilled fever or excessive fever, lack of urge for food, decreased meals consumption, each day weight reduction, shortness of breath, and listlessness, and the necropsy outcomes confirmed that they’d skilled extreme interstitial pneumonia.
We then used the BAC system to assemble a full-length cDNA infectious clone of GDzj, and the rescued virus displayed in vitro proliferation traits much like these of the parental PRRSV pressure. In abstract, we efficiently remoted a extremely pathogenic PRRSV pressure and constructed a full-length infectious cDNA clone from it, thereby offering an efficient reverse genetics platform for additional examine of viral pathogenesis.
A bivalent binding aptamer-cDNA on MoS 2 nanosheets primarily based fluorescent aptasensor for detection of aflatoxin M 1
To make sure the security of dairy merchandise, particularly milk, and consequently defend human well being, correct and easy analytical methods are extremely obligatory to find out the low focus of aflatoxin M1 (AFM1) as an essential carcinogen.
Herein, a novel, correct and easy fluorescent aptasensor was designed for selective detection of AFM1 primarily based on bivalent binding aptamer-cDNA (BBA-cDNA) construction. Furthermore, MoS2 nanosheets (MoS2 NSs) have been used because the fluorescent quencher and FAM-labeled complementary strand of aptamer (FAM-CS) was utilized as a fluorescent probe.
On this examine, we achieved a brand new consequence. Not like earlier research, on this work, the BBA-cDNA construction was not disassembled within the presence of the goal. Due to this fact, because the AFM1 focus elevated, extra targets have been hooked up to the BBA-cDNA construction and in consequence, the BBA-cDNA construction/AFM1 couldn’t be positioned on the floor of MoS2 NSs, resulting in the extra fluorescent depth detection.
Beneath optimized situations, the developed fluorescent analytical technique revealed nice selectivity towards AFM1 with a restrict of detection (LOD) of 0.5 nM and a linear vary from 0.7 to 10 nM. This fabricated aptasensor indicated glorious analytical efficiency for AFM1 detection in milk samples with LOD of 0.1 nM.
General, the proposed method might present an efficient foundation for small molecule evaluation to ensure meals and human security utilizing applicable aptamer sequences.
Lack of Gene Info: Discrepancies between RNA Sequencing, cDNA Microarray, and qRT-PCR
Molecular analyses of regular and diseased cells give perception into adjustments in gene expression and assist in understanding the background of pathophysiological processes. Years after cDNA microarrays have been established in analysis, RNA sequencing (RNA-seq) grew to become a key technique of quantitatively measuring the transcriptome. On this examine, we in contrast the detection of genes by every of the transcriptome evaluation strategies: cDNA array, quantitative RT-PCR, and RNA-seq.
As anticipated, we discovered variations within the gene expression profiles of the aforementioned methods. Right here, we current chosen genes that exemplarily reveal the noticed variations and calculations to disclose {that a} robust RNA secondary construction, in addition to pattern preparation, can have an effect on RNA-seq.
In abstract, this examine addresses an essential subject with a powerful impression on gene expression evaluation on the whole. Due to this fact, we advise that these findings have to be thought of when coping with information from transcriptome analyses.
Expression profiling of genes in rheumatoid fibroblast-like synoviocytes regulated by Fas ligand by way of cDNA microarray evaluation
Rheumatoid arthritis (RA) is an autoimmune illness that causes power irritation in synovial tissues. Hyperplasia of synovial tissues results in the formation of pannus that invades the joint cartilage and bone, leading to joint destruction. Fas ligand (FasL), which is a member of the tumor necrosis issue superfamily, contributes to the pathogenesis of autoimmune ailments, together with RA.
The present examine tried to establish genes whose expressions in rheumatoid fibroblast-like synoviocytes (RA-FLS) have been regulated by FasL, utilizing cDNA microarray. A complete of 4 particular person strains of main cultured RA-FLS have been incubated both with recombinant human FasL protein or PBS as an unstimulated management for 12 h. Gene expression was detected utilizing a microarray assay.
The outcomes revealed the expression profiles of genes in RA-FLS regulated by Fas and investigated the features of the genes that have been regulated. Among the many genes on this profile, the mRNA expression adjustments of the next genes have been indicated to be of notice utilizing RT-qPCR: Twin specificity phosphatase 6, epiregulin, interleukin 11, angiopoietin-like 7, protein inhibitor of activated STAT 2 and progress differentiation issue 5.
These genes could have an effect on the pathogenesis of RA by affecting apoptosis, proliferation, cytokine manufacturing, cytokine-induced irritation, intracellular signaling, angiogenesis, bone destruction and chondrogenesis.
To the very best of our information, the present examine is the primary examine to disclose the expression profile of genes in RA-FLS regulated by FasL. The info demonstrated that FasL could regulate the expression of a variety of key molecules in RA-FLS, thus affecting RA pathogenesis. Additional research of the genes detected could enhance the understanding of RA pathogenesis and supply novel remedy targets for RA.
Ectopic expression of cDNAs from larkspur (Consolida ajacis) for elevated synthesis of gondoic acid (cis-11 eicosenoic acid) and its positional redistribution in seed triacylglycerol of Camelina sativa
A β-ketoacyl-ACP-synthase II (KAS2) like enzyme and a lysophosphatidic acid acyltransferase (LPAT2) from Consolida ajacis catalyze gondoic acid biosynthesis and incorporation into the sn-2 place of seed TAG in engineered Camelina sativa.
Gondoic acid (cis-11 eicosenoic acid, 20:1∆11) is the predominant very-long-chain fatty acid (VLCFA) in camelina (Camelina sativa) seed oil accounting for 12-15% of whole triacylglycerol fatty acids. To discover the feasibility of engineering elevated ranges of this fatty acid in camelina seed, oils from a variety of plant species have been analyzed to establish these producing 20-Carbon (C20) fatty acids as the one VLCFAs of their seed oil.
Seeds of Consolida and Delphinium species (Ranunculaceae) have been discovered to comprise reasonable ranges (0.2% to 25.5%) of C20 fatty acids with out accompanying longer chain fatty acids. The C20 fatty acids have been plentiful in each sn-2 and sn-1/Three positions of seed TAG in Consolida, however have been largely absent from the sn-2 place in Delphinium seed TAG.
By means of era of a growing seed transcriptome, sequences have been recognized and cDNAs amplified from Consolida ajacis encoding a β-ketoacyl-ACP-synthase II like protein (CaKAS2B) that lacked a predicted chloroplast transit peptide, and two homologues of Arabidopsis thaliana lysophosphatidic acid acyltransferase 2 (CaLPAT2a and CaLPAT2b). Expression of CaKAS2B in standard (WT) camelina and a line beforehand engineered for prime seed oleic acid content material (HO) resulted in elevated seed VLCFA content material.
Complete VLCFA ranges have been raised from 24 to 35% and from 7 to 23% in T3 seed from consultant transformants within the WT and HO backgrounds, respectively. Gondoic acid was the predominant VLCFA in remodeled HO strains with low endogenous cytoplasmic fatty acid elongation exercise, suggesting restricted capability of CaKAS2B to elongate past C20.
Expression in camelina of CaLPAT2b resulted in considerably elevated C20-VLCFA esterification on the sn-2 place of seed TAG with VLCFA ranges of 33.8% on this place in a single remodeled line in comparison with 0.3% at sn-2 within the corresponding management line.
Solely small adjustments in whole seed VLCFA content material have been noticed in remodeled strains implying that elevated VLCFA esterification capability in camelina leads to positional redistribution of VLCFAs however doesn’t considerably improve flux via the fatty acid elongation pathway.
Glandular kallikrein-3, submandibular |
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AP84287 | SAB | 1mg | EUR 2640 |
Submandibular glandular kallikrein-9 |
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AP84804 | SAB | 1mg | EUR 2640 |
Submandibular Gland Renin antibody (Mouse) |
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10R-S119a | Fitzgerald | 200 ul | EUR 395 |
Description: Mouse monoclonal Submandibular Gland Renin antibody (Mouse) |
Submandibular Gland Renin Mouse, Antibody |
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GWB-DDA1F9 | GenWay Biotech | 0.2 ml | Ask for price |
Glandular kallikrein-7, submandibular/renal |
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AP84634 | SAB | 1mg | EUR 2640 |
Immortalized Human Submandibular Gland Cells |
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T0732 | ABM | 1x10^6 cells / 1.0 ml | EUR 2750 |
Muc10 (untagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:25326 IMAGE:4924369), (10ug) |
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MC218203 | Origene Technologies GmbH | 10 µg | Ask for price |
Muc10 (untagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:29112 IMAGE:4166946), (10ug) |
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MC206844 | Origene Technologies GmbH | 10 µg | Ask for price |
Muc10 (GFP-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:29112 IMAGE:4166946) |
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MG201463 | Origene Technologies GmbH | 10 µg | Ask for price |
Muc10 (GFP-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:25326 IMAGE:4924369) |
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MG203492 | Origene Technologies GmbH | 10 µg | Ask for price |
Mouse Submandibular gland protein C, Muc19 ELISA KIT |
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ELI-35955m | Lifescience Market | 96 Tests | EUR 1038 |
Muc10 (Myc-DDK-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:25326 IMAGE:4924369) |
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MR203492 | Origene Technologies GmbH | 10 µg | Ask for price |
Muc10 (Myc-DDK-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:29112 IMAGE:4166946) |
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MR201463 | Origene Technologies GmbH | 10 µg | Ask for price |
Rat Submandibular glandular kallikrein-9 ELISA Kit |
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EK1729 | SAB | 96 tests | EUR 599 |
Glandular Kallikrein-3, Submandibular (KLK3) Antibody |
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abx173227-100l | Abbexa | 100 µl | EUR 775 |
Glandular Kallikrein-3, Submandibular (KLK3) Antibody |
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abx173227-1ml | Abbexa | 1 ml | Ask for price |
Glandular Kallikrein-3, Submandibular (KLK3) Antibody |
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abx173227-200l | Abbexa | 200 µl | Ask for price |
Glandular Kallikrein-3, Submandibular (KLK3) Antibody |
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abx177249-1096tests | Abbexa | 10 × 96 tests | EUR 725 |
Glandular Kallikrein-3, Submandibular (KLK3) Antibody |
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abx177249-596tests | Abbexa | 5 × 96 tests | EUR 337.5 |
Glandular Kallikrein-3, Submandibular (KLK3) Antibody |
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abx177249-96tests | Abbexa | 96 tests | EUR 262.5 |
Rat Glandular kallikrein-7, submandibular/renal (Klk7) |
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1-CSB-EP012458RA | Cusabio |
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Description: Recombinant Rat Glandular kallikrein-7, submandibular/renal(Klk7) expressed in E.coli |
Rat Glandular Kallikrein-3, Submandibular (KLK3) Protein |
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abx654096-1g | Abbexa | 1 µg | EUR 1800 |
Rat Glandular Kallikrein-3, Submandibular (KLK3) Protein |
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abx654096-50g | Abbexa | 50 µg | Ask for price |
Rat Glandular Kallikrein-3, Submandibular (KLK3) Protein |
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abx654096-5g | Abbexa | 5 µg | EUR 4525 |
Rat Submandibular glandular kallikrein-9 (Klk9) ELISA Kit |
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abx256273-96tests | Abbexa | 96 tests | EUR 801.6 |
Rat Klk9/ Submandibular glandular kallikrein-9 ELISA Kit |
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E0548Ra | Sunlong | 1 Kit | EUR 557 |
Description: Klk-9,Klks3,KLK-S3,S3 kallikrein,Submandibular enzymatic vasoconstrictor,Tissue kallikrein,SEV |
Rat Klk9(Submandibular glandular kallikrein-9) ELISA Kit |
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EKF58847-48T | Biomatik Corporation | 48T | EUR 396.9 |
Rat Klk9(Submandibular glandular kallikrein-9) ELISA Kit |
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EKF58847-5x96T | Biomatik Corporation | 5x96T | EUR 2693.25 |
Rat Klk9(Submandibular glandular kallikrein-9) ELISA Kit |
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EKF58847-96T | Biomatik Corporation | 96T | EUR 567 |
Rat Klk9(Submandibular glandular kallikrein-9) ELISA Kit |
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ER0295 | FN Test | 96T | EUR 681.12 |
Description: Method of detection: Double Antibody, Sandwich ELISA;Reacts with: Rattus;Sensitivity: 18.75pg/ml |
Rat Glandular Kallikrein-3, Submandibular (KLK3) ELISA Kit |
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abx155753-100g | Abbexa | 100 µg | EUR 6075 |
Rat Glandular Kallikrein-3, Submandibular (KLK3) ELISA Kit |
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abx155753-10g | Abbexa | 10 µg | EUR 675 |
Rat Glandular Kallikrein-3, Submandibular (KLK3) ELISA Kit |
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abx155753-50g | Abbexa | 50 µg | EUR 3212.5 |
Mouse 16.5 kDa submandibular gland glycoprotein, Spt1 ELISA KIT |
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ELI-29687m | Lifescience Market | 96 Tests | EUR 1038 |
Smgc (untagged) - Mouse submandibular gland protein C (Smgc), (10ug) |
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MC221197 | Origene Technologies GmbH | 10 µg | Ask for price |
Smgc (untagged ORF) - Rat submandibular gland protein C (Smgc), (10 ug) |
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RN212008 | Origene Technologies GmbH | 10 µg | Ask for price |
Mouse 16.5 kDa submandibular gland glycoprotein (MUCL2) ELISA Kit |
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abx545538-96tests | Abbexa | 96 tests | EUR 687.5 |
Rat Submandibular gland secretory Glx- rich protein CA, Grpca EL |
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ELI-27901r | Lifescience Market | 96 Tests | EUR 1063.2 |
Rat Glandular kallikrein- 7, submandibular/renal, Klk7 ELISA KIT |
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ELI-06139r | Lifescience Market | 96 Tests | EUR 1063.2 |
Lenti ORF clone of Muc10 (mGFP-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:25326 IMAGE:4924369) |
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MR203492L4 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Muc10 (mGFP-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:29112 IMAGE:4166946) |
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MR201463L4 | Origene Technologies GmbH | 10 µg | Ask for price |
Smgc (GFP-tagged) - Mouse submandibular gland protein C (Smgc), (10ug) |
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MG219211 | Origene Technologies GmbH | 10 µg | Ask for price |
Smgc (Myc-DDK-tagged) - Mouse submandibular gland protein C (Smgc) |
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MR219211 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Muc10 (Myc-DDK-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:25326 IMAGE:4924369) |
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MR203492L3 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Muc10 (Myc-DDK-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:29112 IMAGE:4166946) |
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MR201463L3 | Origene Technologies GmbH | 10 µg | Ask for price |
Klk9 ELISA Kit| Rat Submandibular glandular kallikrein-9 ELISA K |
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EF017179 | Lifescience Market | 96 Tests | EUR 826.8 |
Recombinant Rat Glandular kallikrein-7, submandibular/renal(Klk7) |
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AP70475 | SAB | 1mg | EUR 2826 |
Recombinant Rat Glandular kallikrein-7, submandibular/renal (Klk7) |
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CSB-EP012458RA | Cusabio | 1553 mg | Ask for price |
Smgc (Myc-DDK-tagged ORF) - Rat submandibular gland protein C (Smgc), (10 ug) |
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RR212008 | Origene Technologies GmbH | 10 µg | Ask for price |
Rat Submandibular gland secretory Glx-rich protein CA (GRPCA) ELISA Kit |
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abx526301-96tests | Abbexa | 96 tests | EUR 687.5 |
Recombinant Dog Double-headed protease inhibitor, submandibular gland |
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CSB-EP360611DO | Cusabio | 7287 mg | Ask for price |
Recombinant Dog Double-headed protease inhibitor, submandibular gland |
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RPC27316-100ug | Biomatik Corporation | 100ug | EUR 801.9 |
Recombinant Dog Double-headed protease inhibitor, submandibular gland |
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RPC27316-1mg | Biomatik Corporation | 1mg | EUR 2885.2 |
Recombinant Dog Double-headed protease inhibitor, submandibular gland |
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RPC27316-20ug | Biomatik Corporation | 20ug | EUR 448.1 |
Lenti ORF particles, Muc10 (GFP-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:25326 IMAGE:4924369), 200ul, >10^7 T |
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MR203492L4V | Origene Technologies GmbH | 200 µl | Ask for price |
Lenti ORF particles, Muc10 (GFP-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:29112 IMAGE:4166946), 200ul, >10^7 T |
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MR201463L4V | Origene Technologies GmbH | 200 µl | Ask for price |
Bpifa2f (untagged ORF) - Rat neonatal submandibular gland protein B (Smgb), (10 ug) |
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RN212284 | Origene Technologies GmbH | 10 µg | Ask for price |
Recombinant Rat Submandibular gland secretory Glx-rich protein CB (Grpcb) |
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CSB-YP357398RAa0 | Cusabio | 10597 mg | Ask for price |
Lenti ORF particles, Muc10 (Myc-DDK-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:25326 IMAGE:4924369), 200ul, >10 |
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MR203492L3V | Origene Technologies GmbH | 200 µl | Ask for price |
Lenti ORF particles, Muc10 (Myc-DDK-tagged) - Mouse mucin 10, submandibular gland salivary mucin (cDNA clone MGC:29112 IMAGE:4166946), 200ul, >10 |
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MR201463L3V | Origene Technologies GmbH | 200 µl | Ask for price |
Prol1 (untagged ORF) - Rat mucin 10, submandibular gland salivary mucin (Muc10), (10 ug) |
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RN215454 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Smgc (mGFP-tagged ORF) - Rat submandibular gland protein C (Smgc), (10 ug) |
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RR212008L4 | Origene Technologies GmbH | 10 µg | Ask for price |
Bpifa2f (Myc-DDK-tagged ORF) - Rat neonatal submandibular gland protein B (Smgb), (10 ug) |
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RR212284 | Origene Technologies GmbH | 10 µg | Ask for price |
Epithelial Dissociation System 4 (Epithelial,Submandibular salivary), Mouse and Rat |
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4-20254 | CHI Scientific | ea | Ask for price |
Prol1 (Myc-DDK-tagged ORF) - Rat mucin 10, submandibular gland salivary mucin (Muc10), (10 ug) |
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RR215454 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Smgc (Myc-DDK-tagged ORF) - Rat submandibular gland protein C (Smgc), (10 ug) |
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RR212008L3 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF particles, Smgc (GFP-tagged ORF) - Rat submandibular gland protein C (Smgc), 200ul, >10^7 TU/mL |
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RR212008L4V | Origene Technologies GmbH | 200 µl | Ask for price |
Lenti ORF clone of Bpifa2f (mGFP-tagged ORF) - Rat neonatal submandibular gland protein B (Smgb), (10 ug) |
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RR212284L4 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Prol1 (mGFP-tagged ORF) - Rat mucin 10, submandibular gland salivary mucin (Muc10), (10 ug) |
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RR215454L4 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF particles, Smgc (Myc-DDK-tagged ORF) - Rat submandibular gland protein C (Smgc), 200ul, >10^7 TU/mL |
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RR212008L3V | Origene Technologies GmbH | 200 µl | Ask for price |
Lenti ORF clone of Bpifa2f (Myc-DDK-tagged ORF) - Rat neonatal submandibular gland protein B (Smgb), (10 ug) |
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RR212284L3 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Prol1 (Myc-DDK-tagged ORF) - Rat mucin 10, submandibular gland salivary mucin (Muc10), (10 ug) |
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RR215454L3 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF particles, Bpifa2f (GFP-tagged ORF) - Rat neonatal submandibular gland protein B (Smgb), 200ul, >10^7 TU/mL |
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RR212284L4V | Origene Technologies GmbH | 200 µl | Ask for price |
Lenti ORF particles, Prol1 (GFP-tagged ORF) - Rat mucin 10, submandibular gland salivary mucin (Muc10), 200ul, >10^7 TU/mL |
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RR215454L4V | Origene Technologies GmbH | 200 µl | Ask for price |
Lenti ORF particles, Bpifa2f (Myc-DDK-tagged ORF) - Rat neonatal submandibular gland protein B (Smgb), 200ul, >10^7 TU/mL |
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RR212284L3V | Origene Technologies GmbH | 200 µl | Ask for price |
Lenti ORF particles, Prol1 (Myc-DDK-tagged ORF) - Rat mucin 10, submandibular gland salivary mucin (Muc10), 200ul, >10^7 TU/mL |
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RR215454L3V | Origene Technologies GmbH | 200 µl | Ask for price |
Epithelial Dissociation System 2 (Epididymal epithelial, Gastric parietal and chief Submandibular salivary), Mouse and Rat |
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4-20252 | CHI Scientific | ea | Ask for price |
Pig Salivary, Submaxillary cDNA |
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PD-317 | Zyagen | 30 reactions | EUR 243 |
Sheep Salivary, Submaxillary cDNA |
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SD-317 | Zyagen | 30 reactions | EUR 243 |
Bovine Salivary, Submaxillary cDNA |
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BD-317 | Zyagen | 30 reactions | EUR 243 |
41243-2 RB SALIVARY SUBMAX Y 50 EA* |
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41243-2 | Pel-Freez | 50 EA | EUR 263 |
cDNA - Plant Normal Tissue: cDNA - Plant: Corn |
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C1634330 | Biochain | 40 reactions | EUR 741 |
cDNA - Plant Normal Tissue: cDNA - Plant: Rice |
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C1634360 | Biochain | 40 reactions | EUR 741 |
cDNA - Plant Normal Tissue: cDNA - Plant: Wheat |
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C1634390 | Biochain | 40 reactions | EUR 741 |
cDNA - Plant Normal Tissue: cDNA - Plant: Orange |
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C1634340 | Biochain | 40 reactions | EUR 741 |
cDNA - Plant Normal Tissue: cDNA - Plant: Potato |
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C1634350 | Biochain | 40 reactions | EUR 741 |
59443-2 PIG SUBMAXILLARY 50 EA* |
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59443-2 | Pel-Freez | 50 EA | EUR 833 |
Oak cDNA |
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PLD-1005 | Zyagen | 30 reactions | EUR 498 |
Fig cDNA |
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PLD-1042 | Zyagen | 30 reactions | EUR 498 |
Oat cDNA |
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PLD-1096 | Zyagen | 30 reactions | EUR 498 |
Rye cDNA |
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PLD-1097 | Zyagen | 30 reactions | EUR 498 |
Corn cDNA |
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PLD-1002 | Zyagen | 30 reactions | EUR 498 |
Rice cDNA |
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PLD-1004 | Zyagen | 30 reactions | EUR 498 |
Pear cDNA |
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PLD-1033 | Zyagen | 30 reactions | EUR 498 |
Pine cDNA |
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PLD-1063 | Zyagen | 30 reactions | EUR 498 |
cDNA - Plant Normal Tissue: cDNA - Plant: Arabidopsis |
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C1634310 | Biochain | 40 reactions | EUR 741 |
Apple cDNA |
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PLD-1001 | Zyagen | 30 reactions | EUR 498 |
Beans cDNA |
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PLD-1051 | Zyagen | 30 reactions | EUR 498 |
Grape cDNA |
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PLD-1052 | Zyagen | 30 reactions | EUR 498 |
Lemon cDNA |
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PLD-1062 | Zyagen | 30 reactions | EUR 498 |
Wheat cDNA |
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PLD-1084 | Zyagen | 30 reactions | EUR 498 |
Onion cDNA |
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PLD-1092 | Zyagen | 30 reactions | EUR 498 |
Maple cDNA |
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PLD-1094 | Zyagen | 30 reactions | EUR 498 |
Orange cDNA |
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PLD-1003 | Zyagen | 30 reactions | EUR 498 |
Cotton cDNA |
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PLD-1022 | Zyagen | 30 reactions | EUR 498 |
Banana cDNA |
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PLD-1031 | Zyagen | 30 reactions | EUR 498 |
Barley cDNA |
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PLD-1041 | Zyagen | 30 reactions | EUR 498 |
Pepper cDNA |
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PLD-1043 | Zyagen | 30 reactions | EUR 498 |
Potato cDNA |
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PLD-1073 | Zyagen | 30 reactions | EUR 498 |
Tomato cDNA |
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PLD-1074 | Zyagen | 30 reactions | EUR 498 |
Carrot cDNA |
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PLD-1081 | Zyagen | 30 reactions | EUR 498 |
Radish cDNA |
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PLD-1083 | Zyagen | 30 reactions | EUR 498 |
Cherry cDNA |
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PLD-1091 | Zyagen | 30 reactions | EUR 498 |
Squash cDNA |
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PLD-1111 | Zyagen | 30 reactions | EUR 498 |
Apricot cDNA |
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PLD-1011 | Zyagen | 30 reactions | EUR 498 |
Soybean cDNA |
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PLD-1044 | Zyagen | 30 reactions | EUR 498 |
Spinach cDNA |
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PLD-1054 | Zyagen | 30 reactions | EUR 498 |
Cabbage cDNA |
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PLD-1071 | Zyagen | 30 reactions | EUR 498 |
Lettuce cDNA |
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PLD-1072 | Zyagen | 30 reactions | EUR 498 |
Tobacco cDNA |
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PLD-1101 | Zyagen | 30 reactions | EUR 498 |
Cucumber cDNA |
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PLD-1032 | Zyagen | 30 reactions | EUR 498 |
Broccoli cDNA |
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PLD-1061 | Zyagen | 30 reactions | EUR 498 |
Rapeseed cDNA |
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PLD-1093 | Zyagen | 30 reactions | EUR 498 |
Flaxseed cDNA |
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PLD-1095 | Zyagen | 30 reactions | EUR 498 |
cDNA - Plant Normal Tissue: cDNA - Plant: Soy bean |
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C1634370 | Biochain | 40 reactions | EUR 741 |
MINI GEL-O SUBMARINE SYSTEM |
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JSB-30 | IBI Scientific | 7.5CM X 10CM FORMAT | EUR 549.58 |
Persimmon cDNA |
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PLD-1053 | Zyagen | 30 reactions | EUR 498 |
Sunflower cDNA |
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PLD-1064 | Zyagen | 30 reactions | EUR 498 |
Nectarine cDNA |
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PLD-1082 | Zyagen | 30 reactions | EUR 498 |
Asparagus cDNA |
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PLD-1131 | Zyagen | 30 reactions | EUR 498 |
LARGE GEL-O SUBMARINE SYSTEM |
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JSB-120 | IBI Scientific | - | EUR 920.57 |
ULTRAWIDE MINI SUBMARINE |
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JSB-96 | IBI Scientific | SYSTEM 23.5CM X 15CM FORMAT | EUR 872.06 |
Arabidopsis cDNA |
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PLD-1021 | Zyagen | 30 reactions | EUR 498 |
57143-2 BV SALIVARY SUBMAXILLARY 50 EA* |
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57143-2 | Pel-Freez | 50 EA | EUR 8417 |
Rabbit SUBMAXILLARY MATURE 50 EA |
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41343-2 | Pel-Freez | 50 EA | EUR 382.07 |
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The total potential of CaKAS2B and CaLPAT2a for the engineering of excessive gondoic acid ranges in camelina stays to be decided. Seed fatty acid composition of Consolida and Delphinium additionally offers data which may be of worth within the systematics of the Ranunculaceae.
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