Scientific analysis and scholar involvement are essential to the formation of physicians, but the variety of medical researchers has decreased over time. To implement corrective methods, the variables related to constructive analysis attitudes and productiveness amongst medical college students have to be recognized. The intention of this examine was to judge the variables related to college students or concerned in analysis. A validated questionnaire was utilized to the coed members of a longtime anatomy analysis group in a Mexican medical faculty with a six-year medical program. Information have been collected and analyzed.
A complete of 85.5% (n = 77/90) answered the survey with most respondents being second-year medical college students. An important element of conducting analysis was acknowledged to be contributing to new data (45.5%) and to the scientific group (42.9%) by most respondents. Greater than half point out a professor or a peer because the preliminary motivation to turn out to be concerned in analysis. Lack of time was the principle limitation (59.7%) to analysis involvement. Perceived advantages have been data and team-work expertise. Of these concerned, most (85.7%) wished to proceed collaborating in analysis as a complement to their medical work.
to focus on the principle attributes of Convergent Care Analysis that ratify it as a way of scientific analysis. Strategies: it’s a theoretical-reflective examine on Convergent Care Analysis’s theoretical-methodological assumptions. Improvement: Convergent Care Analysis is appropriate with the Social Constructionism paradigm. Convergent Care Analysis initiatives have two approaches: sensible and conceptual. The Convergent Care Analysis course of corpus incorporates 5 phases: conception; instrumentation; scrutiny; evaluation and theorizing.
Remaining Concerns: Convergent Care Analysis rigor encompasses the connection between analysis and care observe, and this corresponds to the convergence of those two dimensions. Attributable to its theoretical basis and standards of methodological rigor, Convergent Care Analysis is aligned with scientific analysis strategies. Professors and scholar colleagues have been discovered to play an necessary motivational and recruitment position for medical analysis. These efforts in flip will become mentor-mentee relationships. Early involvement in analysis as a scholar is anticipated to positively affect the probability of future physicians contribution and collaborating in analysis.
Small RNA analysis and the scientific repertoire: a story about biochemistry and genetics, crops and worms, improvement and illness
The invention of RNA interference in 1998 has made a long-lasting impression on organic analysis. Figuring out the regulatory position of small RNAs modified the modes of molecular organic inquiry in addition to biologists’ understanding of genetic regulation. This text examines the early years of small RNA biology’s success story. I question which elements needed to come collectively in order that small RNA analysis got here into life within the blink of a watch. I primarily take a look at scientific repertoires as facilitators of fast scientific change.
I present that for a brief time period, between the years 1998 and 2002, totally different mannequin organism communities, investigative methods, technological improvements, and analysis pursuits may very well be efficiently aligned to take small RNA analysis off the bottom. I talk about how the keystone discoveries have been located in particular experimental traditions and what methods have been employed to determine these discoveries as extra normal phenomena. Offering thus a practice-based strategy of fast scientific change, I ask learn how to relate the change in propositional bits of scientific data with modifications in scientific observe.
Evaluating affected person views on collaborating in scientific analysis and medical trials for the remedy of spinal wire damage
A questionnaire was developed to judge sufferers’ perspective on analysis geared toward bettering features and overcoming issues related to spinal wire damage (SCI). The primary three sections have been based mostly on revealed and validated evaluation instruments. The ultimate part was developed to evaluate participant views on analysis for SCI. One thousand sufferers have been approached, of which 159 participated. Fifty-eight % of members have been happy with their ‘life as an entire’. Two elements may very well be generated that mirrored the variance within the information concerning members’ life with a SCI: “Psychosocial and bodily wellbeing” and “Impartial residing”.
The vast majority of members acknowledged they’d be concerned in analysis (86%) or medical trials (77%). Nonetheless, the probability of participation dropped when potential dangers of the analysis/trials have been defined. Which members can be prepared to take part in analysis couldn’t be predicted based mostly on the severity of their damage, their psychosocial and bodily wellbeing or their unbiased residing. Regardless of participant institution of a life with SCI, our information signifies that people try for enhancements in perform. Participant willingness to be included in analysis research is noteworthy and scientists and clinicians are inspired to contain extra sufferers in all elements of their analysis.
pOET2.1C_6xHis transfer plasmid |
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2001032 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
pOET2.1N/C_6xHis transfer plasmid |
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2001031 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
GWB-5A59EB-10UG - pOET-1 transfer plasmid (10ug) |
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GWB-5A59EB-10UG | Aviva Systems Biology | 10ug | EUR 287 |
pOET1.1 transfer plasmid |
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200101 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
pOET2.1 transfer plasmid |
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200103 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
pOET3 transfer plasmid |
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200104 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
pOET4 transfer plasmid |
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200105 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
pOET5.1 transfer plasmid |
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200106 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
pOET8.VE2 transfer plasmid |
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200122 | Oxford Expression Technologies | 10 µg | EUR 409.2 |
pOET8.VE3 transfer plasmid |
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200123 | Oxford Expression Technologies | 10 µg | EUR 409.2 |
pOET9 EF1α transfer plasmid |
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200131 | Oxford Expression Technologies | 10 µg | EUR 280.24 |
pOET9 CCAG transfer plasmid |
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200132 | Oxford Expression Technologies | 10 µg | EUR 280.24 |
pOET9 SV40 transfer plasmid |
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200134 | Oxford Expression Technologies | 10 µg | EUR 280.24 |
pOET6 BacMAM transfer plasmid |
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200107 | Oxford Expression Technologies | 10 µg | EUR 208.32 |
6XHis azide |
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12628 | AAT Bioquest | 1mg | EUR 301 |
Description: 6XHis azide is an excellent building block to make 6XHis conjugates for developing His tag detection probes and purification tools through the well-known click chemistry. |
6XHis azide |
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12628-1mg | AAT Bioquest | 1 mg | EUR 295 |
Description: 6XHis azide is an excellent building block to make 6XHis conjugates for developing His tag detection probes and purification tools through the well-known click chemistry. |
6XHis alkyne |
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12629-1mg | AAT Bioquest | 1 mg | EUR 295 |
Description: 6XHis alkyne is an excellent building block to make 6XHis conjugates for developing His tag detection probes and purification tools through the well-known click chemistry. |
6XHis maleimide |
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12626-1mg | AAT Bioquest | 1 mg | EUR 295 |
Description: 6XHis maleimide is an excellent building block to make 6XHis conjugates for developing His tag detection probes and purification tools. |
6XHis Succinimidyl Ester |
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12624 | AAT Bioquest | 1mg | EUR 301 |
Description: 6XHis Succinimidyl Ester is an excellent building block to make 6XHis conjugates for developing His tag detection probes and purification tools. |
6XHis Succinimidyl Ester |
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12624-1mg | AAT Bioquest | 1 mg | EUR 295 |
Description: 6XHis Succinimidyl Ester is an excellent building block to make 6XHis conjugates for developing His tag detection probes and purification tools. |
pET- NLS- Cas9- 6xHis |
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PVT10639 | Lifescience Market | 2 ug | EUR 361.2 |
OAIA00006-1MG - 6xHIS Antibody |
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OAIA00006-1MG | Aviva Systems Biology | 1.0mg | EUR 859 |
OAIA00003-100UG - 6xHIS Antibody |
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OAIA00003-100UG | Aviva Systems Biology | 0.1mg | EUR 259 |
OAIA00010-1MG - 6xHIS Antibody - HRP Conjugated |
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OAIA00010-1MG | Aviva Systems Biology | 1.0mg | EUR 879 |
OAIA00016-1MG - 6xHIS Antibody - HRP Conjugated |
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OAIA00016-1MG | Aviva Systems Biology | 1.0mg | EUR 879 |
OAIA00007-1MG - 6xHIS Antibody - FITC Conjugated |
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OAIA00007-1MG | Aviva Systems Biology | 1.0mg | EUR 869 |
OAIA00015-1MG - 6xHIS Antibody - FITC Conjugated |
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OAIA00015-1MG | Aviva Systems Biology | 1.0mg | EUR 869 |
OAIA00005-100UG - 6xHIS Antibody - HRP Conjugated |
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OAIA00005-100UG | Aviva Systems Biology | 0.1mg | EUR 279 |
OAIA00013-100UG - 6xHIS Antibody - HRP Conjugated |
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OAIA00013-100UG | Aviva Systems Biology | 0.1mg | EUR 279 |
OAIA00004-100UG - 6xHIS Antibody - FITC Conjugated |
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OAIA00004-100UG | Aviva Systems Biology | 0.1mg | EUR 269 |
OAIA00008-1MG - 6xHIS Antibody - Biotin Conjugated |
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OAIA00008-1MG | Aviva Systems Biology | 1.0mg | EUR 869 |
OAIA00012-100UG - 6xHIS Antibody - FITC Conjugated |
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OAIA00012-100UG | Aviva Systems Biology | 0.1mg | EUR 269 |
OAIA00011-100UG - 6xHIS Antibody - Biotin Conjugated |
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OAIA00011-100UG | Aviva Systems Biology | 0.1mg | EUR 269 |
6xHis mouse monoclonal antibody, clone N144/14 |
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73-169 | Origene Technologies GmbH | 5 ml | Ask for price |
6xHis mouse monoclonal antibody, clone N144/14 |
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75-169 | Origene Technologies GmbH | 100 µl | Ask for price |
6xHis-T2A-Puro-pA OmniTag Minicircle Donor |
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OT503MC-1 | SBI | 10 µg | EUR 709 |
pET-(-30)GFP-9xGGS-Cre-6xHis Plasmid |
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PVT17107 | Lifescience Market | 2 ug | EUR 390 |
Monoclonal Anti-Poly-His (6xhis) (His-tag) IgG |
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HISP14-M | Alpha Diagnostics | 100 ug | EUR 578.4 |
CETP (untagged) - Human cholesteryl ester transfer protein, plasma (CETP), transcript variant 2 |
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SC336099 | Origene Technologies GmbH | 10 µg | Ask for price |
Goat Anti-Poly-His (6xhis) (His-tag) IgG, aff pure |
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HISP16-A | Alpha Diagnostics | 100 ug | EUR 489.6 |
LCK with C-tGFP tag for Plasma memberane marking (10ug transfection-grade plasmid) |
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RC100017 | Origene Technologies GmbH | 10 µg | Ask for price |
LCK with C-tRFP tag for Plasma memberane marking (10ug transfection-grade plasmid) |
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RC100049 | Origene Technologies GmbH | 10 µg | Ask for price |
CCND1 with C-tGFP tag for Nucleus marking (10ug transfection-grade plasmid) |
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RC100009 | Origene Technologies GmbH | 10 µg | Ask for price |
LAMP1 with C-tGFP tag for Lysosome marking (10ug transfection-grade plasmid) |
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RC100016 | Origene Technologies GmbH | 10 µg | Ask for price |
CCND1 with C-tRFP tag for Nucleus marking (10ug transfection-grade plasmid) |
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RC100041 | Origene Technologies GmbH | 10 µg | Ask for price |
LAMP1 with C-tRFP tag for Lysosome marking (10ug transfection-grade plasmid) |
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RC100048 | Origene Technologies GmbH | 10 µg | Ask for price |
LAMP1 with C-mGFP tag for Lysosome marking (10ug transfection-grade plasmid) |
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RC100089 | Origene Technologies GmbH | 10 µg | Ask for price |
CCND1 with C-mGFP tag for Nucleus marking (10ug transfection-grade plasmid) |
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RC100094 | Origene Technologies GmbH | 10 µg | Ask for price |
GBA2 with C-mGFP tag for Microsome marking (10ug transfection-grade plasmid) |
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RC100099 | Origene Technologies GmbH | 10 µg | Ask for price |
LAMP1 with C-mRFP tag for Lysosome marking (10ug transfection-grade plasmid) |
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RC100123 | Origene Technologies GmbH | 10 µg | Ask for price |
CCND1 with C-mRFP tag for Nucleus marking (10ug transfection-grade plasmid) |
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RC100128 | Origene Technologies GmbH | 10 µg | Ask for price |
GBA2 with C-mRFP tag for Microsome marking (10ug transfection-grade plasmid) |
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RC100133 | Origene Technologies GmbH | 10 µg | Ask for price |
LAMP1 with C-mBFP tag for Lysosome marking (10ug transfection-grade plasmid) |
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RC100157 | Origene Technologies GmbH | 10 µg | Ask for price |
CCND1 with C-mBFP tag for Nucleus marking (10ug transfection-grade plasmid) |
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RC100162 | Origene Technologies GmbH | 10 µg | Ask for price |
GBA2 with C-mBFP tag for Microsome marking (10ug transfection-grade plasmid) |
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RC100167 | Origene Technologies GmbH | 10 µg | Ask for price |
CETP (untagged)-Human cholesteryl ester transfer protein, plasma (CETP) |
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SC124106 | Origene Technologies GmbH | 10 µg | Ask for price |
Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
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IFRIL6YSTNT6XHIS1000ug | Innovative research | each | EUR 5756 |
Description: Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
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IFRIL6YSTNT6XHIS200ug | Innovative research | each | EUR 3198 |
Description: Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
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IFRIL6YSTNT6XHIS500ug | Innovative research | each | EUR 3627 |
Description: Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
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IFRIL6YSTNT6XHIS50ug | Innovative research | each | EUR 2348 |
Description: Ferret IL-6 Recombinant Yeast N-Terminal 6xHis Tagged |
BID with C-tGFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100007 | Origene Technologies GmbH | 10 µg | Ask for price |
BID with C-tRFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100039 | Origene Technologies GmbH | 10 µg | Ask for price |
BID with C-mGFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100090 | Origene Technologies GmbH | 10 µg | Ask for price |
BID with C-mRFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100124 | Origene Technologies GmbH | 10 µg | Ask for price |
BID with C-mBFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100158 | Origene Technologies GmbH | 10 µg | Ask for price |
PDHA1 with C-tGFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100006 | Origene Technologies GmbH | 10 µg | Ask for price |
PDHA1 with C-tRFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100038 | Origene Technologies GmbH | 10 µg | Ask for price |
ATG12 with C-mGFP tag for Auophagasome marking (10ug transfection-grade plasmid) |
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RC100066 | Origene Technologies GmbH | 10 µg | Ask for price |
PDHA1 with C-mGFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100091 | Origene Technologies GmbH | 10 µg | Ask for price |
ATG12 with C-mRFP tag for Auophagasome marking (10ug transfection-grade plasmid) |
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RC100100 | Origene Technologies GmbH | 10 µg | Ask for price |
PDHA1 with C-mRFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100125 | Origene Technologies GmbH | 10 µg | Ask for price |
ATG12 with C-mBFP tag for Auophagasome marking (10ug transfection-grade plasmid) |
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RC100134 | Origene Technologies GmbH | 10 µg | Ask for price |
PDHA1 with C-mBFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100159 | Origene Technologies GmbH | 10 µg | Ask for price |
CETP (GFP-tagged) - Human cholesteryl ester transfer protein, plasma (CETP) |
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RG206561 | Origene Technologies GmbH | 10 µg | Ask for price |
GAP43 with C-tGFP tag for Neuroal axis marking (10ug transfection-grade plasmid) |
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RC100013 | Origene Technologies GmbH | 10 µg | Ask for price |
GAP43 with C-tRFP tag for Neuroal axis marking (10ug transfection-grade plasmid) |
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RC100045 | Origene Technologies GmbH | 10 µg | Ask for price |
Monoclonal Anti-Poly-His (6xhis) (His-tag) antibody, ascites |
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HISP11-M | Alpha Diagnostics | 100 ul | EUR 578.4 |
CETP (myc-DDK-tagged) - Human cholesteryl ester transfer protein, plasma (CETP), transcript variant 2 |
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RC238205 | Origene Technologies GmbH | 10 µg | Ask for price |
ATG12 with C-tGFP tag for Autophagosome marking (10ug transfection-grade plasmid) |
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RC100004 | Origene Technologies GmbH | 10 µg | Ask for price |
MAPRE3 with C-tGFP tag for Cytoskeleton marking (10ug transfection-grade plasmid) |
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RC100019 | Origene Technologies GmbH | 10 µg | Ask for price |
ATG12 with C-tRFP tag for Autophagosome marking (10ug transfection-grade plasmid) |
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RC100036 | Origene Technologies GmbH | 10 µg | Ask for price |
MAPRE3 with C-tRFP tag for Cytoskeleton marking (10ug transfection-grade plasmid) |
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RC100051 | Origene Technologies GmbH | 10 µg | Ask for price |
MAPRE3 with C-mGFP tag for Cytoskeleton marking (10ug transfection-grade plasmid) |
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RC100072 | Origene Technologies GmbH | 10 µg | Ask for price |
MAPRE3 with C-mRFP tag for Cytoskeleton marking (10ug transfection-grade plasmid) |
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RC100106 | Origene Technologies GmbH | 10 µg | Ask for price |
MAPRE3 with C-mBFP tag for Cytoskeleton marking (10ug transfection-grade plasmid) |
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RC100140 | Origene Technologies GmbH | 10 µg | Ask for price |
Goat Anti-Poly-His (6xhis) (His-tag) IgG-FITC conjugate |
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HISP16-FITC | Alpha Diagnostics | 100 ul | EUR 416.4 |
TGOLN with C-tGFP tag for Golgi apparatus marking (10ug transfection-grade plasmid) |
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RC100029 | Origene Technologies GmbH | 10 µg | Ask for price |
TGOLN with C-tRFP tag for Golgi apparatus marking (10ug transfection-grade plasmid) |
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RC100061 | Origene Technologies GmbH | 10 µg | Ask for price |
TGOLN with C-mGFP tag for Golgi Apparatus marking (10ug transfection-grade plasmid) |
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RC100088 | Origene Technologies GmbH | 10 µg | Ask for price |
TGOLN with C-mRFP tag for Golgi Apparatus marking (10ug transfection-grade plasmid) |
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RC100122 | Origene Technologies GmbH | 10 µg | Ask for price |
TGOLN with C-mBFP tag for Golgi Apparatus marking (10ug transfection-grade plasmid) |
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RC100156 | Origene Technologies GmbH | 10 µg | Ask for price |
B4GalT1 with C-tGFP tag for Golgi apparatus marking (10ug transfection-grade plasmid) |
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RC100005 | Origene Technologies GmbH | 10 µg | Ask for price |
B4GalT1 with C-tRFP tag for Golgi apparatus marking (10ug transfection-grade plasmid) |
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RC100037 | Origene Technologies GmbH | 10 µg | Ask for price |
COX8A (MTS) with C-mGFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100092 | Origene Technologies GmbH | 10 µg | Ask for price |
COX8A (MTS) with C-mRFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100126 | Origene Technologies GmbH | 10 µg | Ask for price |
COX8A (MTS) with C-mBFP tag for Mitochondria marking (10ug transfection-grade plasmid) |
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RC100160 | Origene Technologies GmbH | 10 µg | Ask for price |
ZYX with C-tGFP tag for Focal adherin fiber marking (10ug transfection-grade plasmid) |
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RC100032 | Origene Technologies GmbH | 10 µg | Ask for price |
ZYX with C-tRFP tag for Focal adherin fiber marking (10ug transfection-grade plasmid) |
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RC100064 | Origene Technologies GmbH | 10 µg | Ask for price |
ZYX with C-mGFP tag for Focal Adherin Fiber marking (10ug transfection-grade plasmid) |
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RC100086 | Origene Technologies GmbH | 10 µg | Ask for price |
ZYX with C-mRFP tag for Focal Adherin Fiber marking (10ug transfection-grade plasmid) |
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RC100120 | Origene Technologies GmbH | 10 µg | Ask for price |
ZYX with C-mBFP tag for Focal Adherin Fiber marking (10ug transfection-grade plasmid) |
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RC100154 | Origene Technologies GmbH | 10 µg | Ask for price |
TransferTip ES cell transfer |
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E5195000079 | Scientific Laboratory Supplies | PK25 | EUR 727.2 |
Rabbit Anti-Poly-His (6xhis) (His-tag) IgG-IR700DX conjugate |
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HISP17-IR7 | Alpha Diagnostics | 100 ul | EUR 489.6 |
Plastic Transfer Pipets, Fine Tip, 3.5ml, 500 pcs/pack |
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PTP-06 | IHC World | - | EUR 29.98 |
CETP (Myc-DDK-tagged)-Human cholesteryl ester transfer protein, plasma (CETP) |
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RC206561 | Origene Technologies GmbH | 10 µg | Ask for price |
B4GalT1 (GTS) with C-mGFP tag for Golgi Apparatus marking (10ug transfection-grade plasmid) |
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RC100087 | Origene Technologies GmbH | 10 µg | Ask for price |
B4GalT1 (GTS) with C-mRFP tag for Golgi Apparatus marking (10ug transfection-grade plasmid) |
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RC100121 | Origene Technologies GmbH | 10 µg | Ask for price |
B4GalT1 (GTS) with C-mBFP tag for Golgi Apparatus marking (10ug transfection-grade plasmid) |
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RC100155 | Origene Technologies GmbH | 10 µg | Ask for price |
Plastic Transfer Pipets, graduated to 3ml, 500 pcs/pack |
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PTP-01 | IHC World | - | EUR 19.98 |
Plastic Transfer Pipets, graduated to 1ml, 500 pcs/pack |
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PTP-02 | IHC World | - | EUR 19.98 |
Lenti ORF clone of Human cholesteryl ester transfer protein, plasma (CETP), mGFP tagged |
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RC206561L2 | Origene Technologies GmbH | 10 µg | Ask for price |
Lenti ORF clone of Human cholesteryl ester transfer protein, plasma (CETP), mGFP tagged |
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RC206561L4 | Origene Technologies GmbH | 10 µg | Ask for price |
100µL Transfer Pipettes |
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TP100 | BioAssay Systems | N/A | EUR 15 |
Description: For pipetting 100µL samples. To be used with the Quick Test Strips (e.g. D-Lactic Acid Quick Test Strips, L-Lactic Acid Quick Test Strips, Malic Acid Quick Test Strips). Key Features: Single use, disposable, easy-to-use. Quantity: 10 pipettes. |
1000µL Transfer Pipettes |
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TP1000 | BioAssay Systems | N/A | EUR 15 |
Description: For pipetting 1000µL samples. To be used with the Histamine Quick Test Strips. Key Features: Single use, disposable, easy-to-use. Quantity: 10 pipettes. |
20µL Transfer Pipettes |
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TP20 | BioAssay Systems | N/A | EUR 15 |
Description: For pipetting 20µL samples. To be used with the Quick Test Strips (e.g. D-Lactic Acid Quick Test Strips, L-Lactic Acid Quick Test Strips, Malic Acid Quick Test Strips). Key Features: Single use, disposable, easy-to-use. Quantity: 10 pipettes. |
200µL Transfer Pipettes |
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TP200 | BioAssay Systems | N/A | EUR 15 |
Description: For pipetting 200µL samples. To be used with the Histamine Quick Test Strips. Key Features: Single use, dsposable, easy-to-use. Quantity: 10 pipettes. |
300µL Transfer Pipettes |
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TP300 | BioAssay Systems | N/A | EUR 15 |
Description: For pipetting 300µL samples. To be used with the Quick Test Strips (e.g. D-Lactic Acid Quick Test Strips, L-Lactic Acid Quick Test Strips, Malic Acid Quick Test Strips). Key Features: Single use, dsposable, easy-to-use. Quantity: 10 pipettes. |
400µL Transfer Pipettes |
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TP400 | BioAssay Systems | N/A | EUR 15 |
Description: For pipetting 400µL samples. To be used with the Quick Test Strips (e.g. D-Lactic Acid Quick Test Strips, L-Lactic Acid Quick Test Strips, Malic Acid Quick Test Strips). Key Features: Single use, dsposable, easy-to-use. Quantity: 10 pipettes. |
50µL Transfer Pipettes |
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TP50 | BioAssay Systems | N/A | EUR 15 |
Description: For pipetting 50µL samples. To be used with the Pyruvate Quick Test Strips. Key Features: Single use, dsposable, easy-to-use. Quantity: 10 pipettes. |
Propane Transfer System |
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M-CEM-37015 | MiTeGen | 1 UNIT | EUR 688 |
Description: Propane Transfer System |
Thermal Transfer Ribbon |
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HIS3233 | Scientific Laboratory Supplies | EACH | EUR 181.2 |
WESTERN TRANSFER MODULE |
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IB95000 | IBI Scientific | - | EUR 861.3 |
WESTERN TRANSFER SYSTEM, |
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IB95030 | IBI Scientific | .2uM PVDF MEMBRANE, 10/PACK | EUR 221.2 |
Rat cholest erolester transfer protein/lipid transfer protein ELISA kit |
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E02C0732-192T | BlueGene | 192 tests | EUR 1524 |
Description: A sandwich ELISA for quantitative measurement of Rat cholest erolester transfer protein/lipid transfer protein in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Rat cholest erolester transfer protein/lipid transfer protein ELISA kit |
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E02C0732-48 | BlueGene | 1 plate of 48 wells | EUR 624 |
Description: A sandwich ELISA for quantitative measurement of Rat cholest erolester transfer protein/lipid transfer protein in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Empirical analysis on the Gateway Perception Mannequin (GBM) has flourished lately. The mannequin presents a dual-process account of how perspective change occurs in response to normative cues about scientific settlement. A plethora of correlational and experimental proof has emerged documenting the constructive direct and oblique results of speaking the scientific consensus on international warming. I evaluation current scholarship and argue that the subsequent era of analysis on the GBM ought to deal with higher justifying the inclusion of moderators on each a theoretical and empirical degree, explicitly manipulate motivations to course of the consensus message, mannequin how consensus cues function in aggressive info networks and take a look at the mannequin in subject settings utilizing causal chain experiments.