Chloroplast biotechnology is a route for new plant metabolic techniques. The potential bio-imprisonment of transgen, high protein expression and the possibility of regulating genes into operons representing a considerable profit that makes valuable target chloroplast in agricultural biotechnology. In the last 3 decades, the chloroplast genome of several economic important plants has been successfully transformed. The main obstacles that prevent efficient transformation in the number of larger plants include a combination of selected combinations of marker gene selection and network culture methods for efficient transplastom plant regeneration.
The prospect increases the size of an interesting organel from several perspectives, including increasing the surface area of potential targets. As proof of the concept, we produce a line of Macro-Chloroplast Solanum tuberosum (potatoes) that express tubulin pressure such as GTPase Protein FTSZ1 from Arabidopsis thaliana. The macro-chloroplast line shows delayed growth in anthesis; However, at the time of harvest there was no significant difference between macro-chloroplasts and wild type lines.
Macro-chloroplasts are successfully transformed by biolistic DNA shipments and efficiently regenerated into the line of transplastom homoplasmic. We also show that macro-chloroplasts accumulate the same number of heterologous proteins than wild type organelles, confirm efficient use in plastid techniques. The advantages and limitations of the use of qualified compartments in chloroplast biotechnology are discussed.
Archaea biotechnology.
Archaea is a domain of prokaryotic organisms with interesting physiological characteristics and ecological interests. In microbial biotechnology, Archaea has historically overshadowed by bacteria and eukaryotes in public awareness, industrial applications, and scientific studies, although their biocimical and physiological properties show great potential for various biotechnology applications. At present, most microbial cell factories are used for production of value-added and high-value compounds on the scale of industrial based bacteria, fungi or algae. However, Archaea has become increasingly relevant for biotechnology as their genetic cultivation and system increases.
Some of the main advantages of Archaeal cell factories are the ability to grow many of the extreme strains under non-sterile conditions, and to utilize cheap raw materials often toxic to other microorganisms, so drastically reduce cultivation costs. At present, the only commercially available products from Archaeal cell factories are bacterioruberin, Squalene, bacteriorhodopsin and dether- / tethether-lipids, all of which are produced utilizing Halophile.
Other Archaeal products, such as carotenoids and biohydrogen, as well as their respective polyhydroxy control and methane in the initial development stage to advanced. The purpose of this review is to provide a general description of Archaea Biotechnology’s current state by describing the actual state of research and development and use of the industry of Archaeal cell factories, their role and their potential in the future of sustainable bioprocesing, and to describe their physiological and biotechnological potential ,
Biotechnology and the future of opioid addiction care
The future of care – including addiction treatment – biotechnology. Injection depot, agonist / antagonistic implants, deep brain stimulation, and hapten conjugate vaccines are praised by researchers and pharmaceutical producers as the best hope of drugs to minimize illegal use, to reduce the risk of overdose and painful withdrawals, and to prevent drug transfer to market. , Marketing and use of new technology reveals the concept of framing old tension addiction and care: between medical conditions and will disorders, between criminal justice and health, and between the choice of patients and system control.
Using Examples of Depot Naltrexone and Buprenorphin Implants and Injections in the US, this essay considers an old opioid treatment arc and implications for the future. This includes the rise of the Vivitrol Court and “Coral Recipe” – where the criminal justice system mandates drugs to lock as many brain receptors as they may lock themselves – and the use of buprenorphine formulations that are positioned as an increase in the benefits and control of the provider.
We also consider lessons from debates about contraceptive technology that acts long as Norplant and Depo-Prova. While some new acting formulations are in development, success will be determined less with the characteristics of certain formulations and more with whether new technology is accompanied by new ethics of addiction treatment that emphasizes the therapy alliance, according to compliance, and a original commitment to allow patient ability to allow patients Tell and believe in their description of their care experience.
History and Evolution of Modeling in Biotechnology: Modeling & Simulation, Application Performance and Hardware
The biological system usually consists of a highly connected subunit and has an inherent complexity that makes monitoring, control and optimizing challenging task bioprocesses. At present the modeling engineering tool can provide guidance in understanding complexity and in meeting these challenges. Over the past four decades, computing performance increased exponentially. This capacity of hardware capacity allows more detailed and intensive models in computationally approach the “one-to-one” representation of biological reality.

Driven by Government Guidelines such as FDA pat initiatives, soft sensors and novel techniques developed in the past to ensure product quality and provide data in real time. Estimated state of the current process and future process process predictions eventually enable control of dynamic processes. In this review, the past, future and imagine the future in biotechnology than and discussed in connection with applications in process monitoring, control and optimization.
Brilliant Blue G |
C5579-100000 |
ApexBio |
100 g |
EUR 162 |
Description: Coomassie Brilliant Blue G-250 is used for protein staining in SDS-PAGE, Blue Native PAGE, and the Bradford Method, with high band visibility. |
Histone H3 Peptide (residues 1-21) |
R-1003 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone H3 Peptide (residues 1-21), Biotinylated |
R-1004 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone H3 Peptide (residues 15-39) |
R-1005 |
EpiGentek |
-
EUR 303.60
-
EUR 94.60
-
EUR 165.00
|
|
Histone H3 Peptide (residues 21-44), Biotinylated |
R-1006 |
EpiGentek |
-
EUR 362.76
-
EUR 119.90
-
EUR 205.70
|
|
Histone H4 Peptide (residues 1-21), Biotinylated |
R-1007 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone Acetyl H4ac Peptide, Biotinylated |
R-1008 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone Acetyl H3K9ac Peptide |
R-1009 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone Acetyl H3K9ac Peptide, Biotinylated |
R-1010 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone Acetyl H3K14ac Peptide |
R-1011 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone Acetyl H3K14ac Peptide, Biotinylated |
R-1012 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone Acetyl H4K5ac Peptide |
R-1014 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone Acetyl H4K8ac Peptide |
R-1015 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone Acetyl H4K12ac Peptide |
R-1016 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone Acetyl H4K16ac Peptide |
R-1017 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone H3K4me1 Monomethyl Peptide |
R-1018 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K4me1 Monomethyl Peptide, Biotinylated |
R-1019 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K4me2 Dimethyl Peptide |
R-1020 |
EpiGentek |
-
EUR 267.06
-
EUR 78.10
-
EUR 140.80
|
|
Histone H3K4me2 Dimethyl Peptide, Biotinylated |
R-1021 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K4me3 Trimethyl Peptide |
R-1022 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K4me3 Trimethyl Peptide, Biotinylated |
R-1023 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K9me1 Monomethyl Peptide |
R-1024 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K9me1 Monomethyl Peptide, Biotinylated |
R-1025 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K9me2 Dimethyl Peptide |
R-1026 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K9me2 Dimethyl Peptide, Biotinylated |
R-1027 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K9me3 Trimethyl Peptide |
R-1028 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K9me3 Trimethyl Peptide, Biotinylated |
R-1029 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K27me1 Monomethyl Peptide |
R-1030 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K27me1 Monomethyl Peptide, Biotinylated |
R-1031 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K27me2 Dimethyl Peptide |
R-1032 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K27me2 Dimethyl Peptide, Biotinylated |
R-1033 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K27me3 Trimethyl Peptide |
R-1034 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K27me3 Trimethyl Peptide, Biotinylated |
R-1035 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K36me1 Monomethyl Peptide |
R-1036 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K36me1 Monomethyl Peptide, Biotinylated |
R-1037 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K36me2 Dimethyl Peptide |
R-1038 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H3K36me3 Trimethyl Peptide |
R-1039 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H4K20me1 Monomethyl Peptide |
R-1043 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H4K20me2 Dimethyl Peptide |
R-1044 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Histone H4K20me3 Trimethyl Peptide |
R-1045 |
EpiGentek |
-
EUR 341.88
-
EUR 106.70
-
EUR 191.40
|
|
Biotinylated Phospho Histone Ser 10 Peptide |
R-1047 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K36me2 Dimethyl Peptide, Biotinylated |
R-1049 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K36me3 Trimethyl Peptide, Biotinylated |
R-1050 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K79me1 Monomethyl Peptide, Biotinylated |
R-1051 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H3K79me2 Dimethyl Peptide, Biotinylated |
R-1052 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H4K20me1 Monomethyl Peptide, Biotinylated |
R-1054 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Histone H4K20me3 Trimethyl Peptide, Biotinylated |
R-1056 |
EpiGentek |
-
EUR 361.02
-
EUR 119.90
-
EUR 204.60
|
|
Nucleic Acid Isolation Enhancer (Glycogen Solution) |
R-1001 |
EpiGentek |
|
|
Methylamp PCR Enhancer |
R-1002 |
EpiGentek |
|
- 400 Reactions
- 400 Reactions
|
Streptavidin-Coated Strip Microwell Plate (Flat) |
R-1102 |
EpiGentek |
|
|
DTT Solution |
R-1104 |
EpiGentek |
|
- 1 ml, 500 mM
- 1 ml, 500 mM
|
Histone H3K79me3 Trimethyl Peptide, Biotinylated |
R-1053 |
EpiGentek |
|
|
Histone H4K20me1 Dimethyl Peptide, Biotinylated |
R-1055 |
EpiGentek |
|
|
Coomassie Brilliant Blue G250 |
abx090654-5g |
Abbexa |
5 g |
EUR 226.8 |
|
Coomassie Brilliant Blue R250 |
abx090655-5g |
Abbexa |
5 g |
EUR 226.8 |
|
OPTIONAL BLUE FILTER (497NM) |
GDBL-BLUE |
CORNING |
1/pk |
EUR 1298.4 |
Description: Lab Equipment; Axygen Branded EQ |
conversion screen uv/blue |
VLFC26-BLUE |
Consort |
ea |
EUR 727.2 |
Coomassie brilliant blue G-250 |
20-abx082402 |
Abbexa |
|
|
|
Coomassie brilliant blue G-250 |
20-abx082562 |
Abbexa |
|
|
|
Coomassie brilliant blue G-250 |
CB0038 |
Bio Basic |
25g |
EUR 90.28 |
|
Coomassie Brilliant Blue Fast Staining Solution |
abx090652-200ml |
Abbexa |
200 ml |
EUR 243.6 |
|
Coomassie Brilliant Blue Gel Staining Kit |
abx090653-1Kit |
Abbexa |
1 Kit |
EUR 226.8 |
|
1000UL BLUE TIPS, RACKED AND PRE-STERILIZED |
T-1000-B-R-S |
CORNING |
1000/pk |
EUR 210 |
Description: Non Filter Tips; Pipette Tips - Axygen |
Brilliant green |
BB0242 |
Bio Basic |
25g |
EUR 67.31 |
|
1000UL BLUE TIPS COMPATIBLE WITH EPPENDORF AND SOCOREX PIPETTORS. |
TE-1004-B-R |
CORNING |
1152/pk |
EUR 254.4 |
Description: Non Filter Tips; Pipette Tips - Axygen |
Fluorescence Microscopy Aid |
4400 |
Virostat |
3 ml |
EUR 216.6 |
Description: This is Counter - Stain/Blocking Diluent with optimal formula for preparaiton of final dilutions of FITC conjugate prior to use in FA procedures. |
Holder for Plasmid Midi, Maxi and Maxi plus, Ion Exchange column |
FAPDE-holder-for-ion-exchange |
Favorgen |
1 prep |
EUR 189.6 |
1000UL MAXYMUM RECOVERY BLUE TIPS COMPATIBLE WITH EPPENDORF AND SOCOREX PIPETTORS. |
TE-1004-B-L-R |
CORNING |
1152/pk |
EUR 262.8 |
Description: Non Filter Tips; Maxymum Recovery Pipette Tips - Axygen |
1000UL PRE-STERILIZED BLUE TIPS COMPATIBLE WITH EPPENDORF AND SOCOREX PIPETTORS |
TE-1004-B-R-S |
CORNING |
1152/pk |
EUR 277.2 |
Description: Non Filter Tips; Pipette Tips - Axygen |
1000UL BLUE TIPS, RACKED |
T-1000-B-R |
CORNING |
1000/pk |
EUR 193.2 |
Description: Non Filter Tips; Pipette Tips - Axygen |
1000UL MAXYMUM RECOVERY BLUE TIPS COMPATIBLE WITH EPPENDORF AND SOCOREX PIPETTORS. |
TE-1004-B-L-R-S |
CORNING |
1152/pk |
EUR 286.8 |
Description: Non Filter Tips; Maxymum Recovery Pipette Tips - Axygen |
BRILLIANT GREEN AGAR WITH SULFAPYRIDINE |
B02-117-10kg |
Alphabiosciences |
10 kg |
Ask for price |
BRILLIANT GREEN AGAR WITH SULFAPYRIDINE |
B02-117-2kg |
Alphabiosciences |
2kg |
Ask for price |
BRILLIANT GREEN AGAR WITH SULFAPYRIDINE |
B02-117-500g |
Alphabiosciences |
500 g |
Ask for price |
20UL CLEAR TIPS FOR PACKARDS PLATE TRACK, EVOLUTION AND MINI TRACK INSTRUMENTS. |
PK-20-R |
CORNING |
960/pk |
EUR 302.4 |
Description: Robotic Tips; Robotic tips - Axygen |
200UL CLEAR TIPS FOR PACKARDS PLATE TRACK, EVOLUTION AND MINI TRACK INSTRUMENTS. |
PK-200-R |
CORNING |
960/pk |
EUR 342 |
Description: Robotic Tips; Robotic tips - Axygen |
50UL CLEAR TIPS FOR PACKARDS PLATE TRACK, EVOLUTION AND MINI TRACK INSTRUMENTS. |
PK-50-R |
CORNING |
960/pk |
EUR 298.8 |
Description: Robotic Tips; Robotic tips - Axygen |
EMPTY REFILL RACK WITH LID FOR USE WITH P2/P10 GILSON-STYLE AND 200UL UNIVERSAL FIT INSERTS. |
RFL-R |
CORNING |
10/pk |
EUR 111.6 |
Description: Non Filter Tips; Pipette Tips - Axygen |
Power leads for HorizeBLOT-R |
2322462 |
Atto |
5unit |
EUR 324 |
Monoclonal antibody for Ankyrin R |
SMC-487D |
Stressmarq |
0.1mg |
EUR 423.6 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is not conjugated. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A390 |
Stressmarq |
0.1mg |
EUR 480 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 390. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A488 |
Stressmarq |
0.1mg |
EUR 478.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 488. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A565 |
Stressmarq |
0.1mg |
EUR 478.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 565. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A594 |
Stressmarq |
0.1mg |
EUR 478.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 594. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A633 |
Stressmarq |
0.1mg |
EUR 478.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 633. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A655 |
Stressmarq |
0.1mg |
EUR 478.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 655. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A680 |
Stressmarq |
0.1mg |
EUR 478.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 680. |
Monoclonal antibody for Ankyrin R |
SMC-487D-A700 |
Stressmarq |
0.1mg |
EUR 478.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with ATTO 700. |
Monoclonal antibody for Ankyrin R |
SMC-487D-ALP |
Stressmarq |
0.1mg |
EUR 471.6 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with Alkaline Phosphatase. |
Monoclonal antibody for Ankyrin R |
SMC-487D-APC |
Stressmarq |
0.1mg |
EUR 477.6 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with APC. |
Monoclonal antibody for Ankyrin R |
SMC-487D-APCCY7 |
Stressmarq |
0.1mg |
EUR 564 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with APC/Cy7. |
Monoclonal antibody for Ankyrin R |
SMC-487D-BI |
Stressmarq |
0.1mg |
EUR 474 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with Biotin. |
Monoclonal antibody for Ankyrin R |
SMC-487D-DY350 |
Stressmarq |
0.1mg |
EUR 495.6 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with Dylight 350. |
Monoclonal antibody for Ankyrin R |
SMC-487D-DY405 |
Stressmarq |
0.1mg |
EUR 482.4 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with Dylight 405. |
Monoclonal antibody for Ankyrin R |
SMC-487D-DY488 |
Stressmarq |
0.1mg |
EUR 470.4 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with Dylight 488. |
Monoclonal antibody for Ankyrin R |
SMC-487D-DY594 |
Stressmarq |
0.1mg |
EUR 472.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with Dylight 594. |
Monoclonal antibody for Ankyrin R |
SMC-487D-DY633 |
Stressmarq |
0.1mg |
EUR 466.8 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with Dylight 633. |
Monoclonal antibody for Ankyrin R |
SMC-487D-FITC |
Stressmarq |
0.1mg |
EUR 469.2 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with FITC. |
Monoclonal antibody for Ankyrin R |
SMC-487D-HRP |
Stressmarq |
0.1mg |
EUR 464.4 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with HRP. |
Monoclonal antibody for Ankyrin R |
SMC-487D-P594 |
Stressmarq |
0.1mg |
EUR 487.2 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with PE/ATTO 594. |
Monoclonal antibody for Ankyrin R |
SMC-487D-PCP |
Stressmarq |
0.1mg |
EUR 477.6 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with PerCP. |
Monoclonal antibody for Ankyrin R |
SMC-487D-RPE |
Stressmarq |
0.1mg |
EUR 475.2 |
|
Description: A monoclonal antibody from clone S388A-10 against Human Ankyrin R. The host species for the production of this antibody is Mouse. The antigen used for immunization is Human Fusion protein amino acids 1-1881 (full-length) of human Ankyrin-R. The antibody is tested and validated for WB, IHC, ICC/IF assays with the following recommended dilutions: WB (1:1000). This MAb for Ankyrin R is conjugated with RPE. |
In addition, hardware requirements and availability to fit the needs of models that are increasingly summarized. The main technique and various modeling approaches in industrial biotechnology are compared, and current and future trends and perspectives described.