Prospects of ultraviolet resonance Raman spectroscopy in supramolecular chemistry on proteins

Prospects of ultraviolet resonance Raman spectroscopy in supramolecular chemistry on proteins

by
Ultraviolet resonance Raman scattering (UVRR) has been incessantly used for finding out peptide and protein construction and dynamics, whereas purposes in supramolecular chemistry are fairly uncommon. Since UVRR provides the extra benefits of chromophore selectivity and excessive sensitivity in contrast with typical non-resonant Raman scattering, it’s ideally suited to label-free probing of comparatively small synthetic/supramolecular ligands exhibiting digital resonances in the UV.
In this angle article, we first summarize outcomes of UVRR spectroscopy in supramolecular chemistry in the context of peptide/protein recognition. We focus on chosen synthetic ligands which had been rationally designed as selective carboxylate binders (guanidiniocarbonyl pyrrole, GCP, and guanidiniocarbonyl indole, GCI) and selective lysine binder (molecular tweezer, CLR01), respectively, through a mixture of non-covalent interactions involving electrostatics, hydrogen bonding, and hydrophobic results/van der Waals forces.
Current limitations of making use of UVRR as a universally relevant technique for label-free and site-specific probing of molecular recognition between supramolecular ligands and proteins are highlighted. We then suggest options to beat these limitations for remodeling UVRR spectroscopy right into a generic software in supramolecular chemistry on proteins, with an emphasis on mono- and multivalent GCP- and GCI-based ligands. Finally, we define particular instances of supramolecular ligands similar to molecular tweezers the place various approaches similar to laser-based mid-IR spectroscopy are required since UVRR can intrinsically not present the required molecular data.

Differences in floor chemistry of regenerated lignocellulose fibers decided by chemically delicate scanning probe microscopy

Tuning the composition of regenerated lignocellulosic fibers in the manufacturing course of allows concentrating on of particular materials properties. In composite supplies, such properties could possibly be manipulated by managed heterogeneous distribution of chemical elements of regenerated fibers. This attribute requires a visualization technique to point out their inherent chemical traits. We in contrast complementary microscopic strategies to investigate the floor chemistry of 4 otherwise tuned regenerated lignocellulosic fibers. Adhesion properties had been visualized with chemical power microscopy and confirmed contrasts in direction of hydrophilic and hydrophobic atomic power microscopy ideas.
Fibers containing xylan confirmed heterogeneous adhesion properties inside the fiber construction in direction of hydrophilic ideas. Additionally, peak power infrared microscopy mapped spectroscopic contrasts with nanometer decision and offered level infrared spectra, which had been constant to classical infrared microscopy knowledge. With this setup, infrared alerts with a spatial decision under 20 nm reveal chemical gradients in particular fiber sorts.

Comparison of 2 glucose analytical methodologies in immature Kemp’s ridley sea turtles: dry chemistry of plasma versus point-of-care glucometer evaluation of entire blood

Blood glucose measurements present necessary diagnostic data relating to stress, illness, and dietary standing. Glucose analytical methodologies embrace dry chemistry evaluation (DCA) of plasma and point-of-care (POC) glucometer evaluation of entire blood; nonetheless, these 2 strategies differ in price, required pattern quantity, and processing time.
Because POC glucometers use built-in equations based mostly on options of mammalian blood to transform entire blood measurements to plasma equal models, obtained glucose knowledge should be in contrast and validated utilizing gold-standard chemistry analytical methodology in reptiles.
For in-water, trawl-captured, immature Kemp’s ridley sea turtles (Lepidochelys kempii) from Georgia, USA, we noticed vital, optimistic settlement between the two glucose dedication strategies; nonetheless, the glucometer overestimated glucose concentrations by 1.four mmol/L on common in comparability to DCA and produced a wider vary of outcomes. The discordance of these outcomes means that POC glucometer glucose knowledge ought to be interpreted in the context of methodology- and brand-specific reference intervals together with concurrent packed cell quantity knowledge.

Does the chemistry of fungal pigments demand the existence of photoactivated protection methods in basidiomycetes?

The well-known photosensitizers hypericin, harmane, and emodin are typical pigments of sure mushroom species-is this a coincidence or a sign in direction of a photoactivated protection mechanism in the phylum Basidiomycota? This perspective article explores this speculation by cross-linking the chemistry of fungal pigments with structural necessities from recognized photosensitizers and insights from photoactivated methods in the dominion Plantae. Thereby, gentle is shed on a but unexplored playground coping with ecological questions, photopharmaceutical alternatives, and biotechnological potentials.
Prospects of ultraviolet resonance Raman spectroscopy in supramolecular chemistry on proteins

Soil Chemistry and Nutrients Influence the Distribution of Aerobic Anoxygenic Phototrophic Bacteria and Eukaryotic Phototrophic Microorganisms of Physical Soil Crusts at Different Elevations on the Tibetan Plateau

Photosynthetic microorganisms are extensively distributed in the soil and play an necessary position in plant-free soil crusts. However, the distribution and environmental drivers of phototrophic microbial communities in bodily soil crusts, the place the abundance of cyanobacteria is low, are scarcely understood. Here, we carried out high-throughput sequencing of pufM and 18S rRNA genes in soil crusts at completely different elevations on the Tibetan Plateau and used the information mixed with environmental variables to investigate the range and construction of phototrophic microbial communities.
We discovered that the dominant taxa of cardio anoxygenic phototrophic micro organism (AAPB) and eukaryotic phototrophic microorganisms (EPM) had been proven to shift with elevation. The phototrophic microbial variety confirmed a single-peak sample, with the bottom variety of AAPB and highest variety of EPM at center elevations. Moreover, the elevation and soil property decided the phototrophic microbial group. Soil salts, particularly Cl, had been an important for AAPB. Likewise, soil vitamins, particularly carbon, had been an important for EPM.
The relationship between high-abundance taxa and environmental variables confirmed that Rhizobiales was considerably negatively correlated with salt ions and positively correlated with chlorophyll. Rhodobacterales confirmed the strongest and vital optimistic associations with Cl. Chlorophyceae and Bacillariophyceae had been positively correlated with CO32-.

Neuron Specific Enolase Antibody
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Neuron Specific Enolase Antibody
GWB-D41123 1 ml Ask for price

Neuron Specific Enolase Antibody
F48200-0.4ML 0.4 ml
EUR 322.15
Description: NSE is one of the three enolase isoenzymes found in mammals. This isoenzyme, a homodimer, is found in mature neurons and cells of neuronal origin. A switch from alpha to gamma enolase occurs in neural tissue during development in rats and primates. [Wiki]

Neuron Specific Enolase Antibody (NSE)
F48200-0.08ML 0.08 ml
EUR 140.25
Description: NSE is one of the three enolase isoenzymes found in mammals. This isoenzyme, a homodimer, is found in mature neurons and cells of neuronal origin. A switch from alpha to gamma enolase occurs in neural tissue during development in rats and primates. [Wiki]

Neuron Specific Enolase Antibody (NSE)
F48201-0.08ML 0.08 ml
EUR 140.25
Description: Neuron Specific Enolase, also called Gamma-enolase, and Enolase 2 (ENO2) has neurotrophic and neuroprotective properties on a broad spectrum of central nervous system (CNS) neurons. Binds, in a calcium-dependent manner, to cultured neocortical neurons and promotes cell survival (By similarity). [UniProt]

Enolase, Neuron Specific (ENO2) Antibody
20-abx109806
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Enolase, Neuron Specific (ENO2) Antibody
20-abx109807
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Enolase, Neuron Specific (ENO2) Antibody
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Enolase, Neuron Specific (ENO2) Antibody
abx036140-100ug 100 ug
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Enolase, Neuron Specific (NSE) Antibody
20-abx102347
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Enolase, Neuron Specific (NSE) Antibody
20-abx102348
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Enolase, Neuron Specific (NSE) Antibody
20-abx102349
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Enolase, Neuron Specific (NSE) Antibody
20-abx102350
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Enolase, Neuron Specific (NSE) Antibody
20-abx129524
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  • 100 ug
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Neuron Specific Enolase (NSE) Antibody
abx020636-1mg 1 mg
EUR 994.8

Neuron Specific Enolase (NSE) Antibody
abx020637-1mg 1 mg
EUR 994.8

Neuron Specific Enolase (NSE) Antibody
abx020638-1mg 1 mg
EUR 994.8

Neuron Specific Enolase (NSE) Antibody
abx020639-1mg 1 mg
EUR 994.8

Neuron Specific Enolase (NSE) Antibody
abx020640-1mg 1 mg
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abx020641-1mg 1 mg
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Enolase, Neuron Specific (NSE) Antibody
20-abx270247
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Enolase, Neuron Specific (NSE) Antibody
20-abx172246
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  • 1 mg
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Enolase, Neuron Specific (NSE) Antibody
20-abx172247
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Neuron Specific Enolase (NSE) Antibody
E63C00701a 100μg/100μl
EUR 225
Description: Available in various conjugation types.

Neuron Specific Enolase (NSE), Antibody
GWB-2ABB27 1 mg Ask for price

Neuron Specific Enolase (NSE), Antibody
GWB-365C9F 1 mg Ask for price

Neuron Specific Enolase (NSE), Antibody
GWB-1DB347 1 mg Ask for price

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GWB-CA6A00 1 mg Ask for price

Neuron Specific Enolase (NSE), Antibody
GWB-C37544 1 mg Ask for price

NSE Antibody / Neuron Specific Enolase
F54038-0.1ML 0.1 ml
EUR 322.15
Description: Neuron Specific Enolase (NSE, Enolase-2) has neurotrophic and neuroprotective properties on a broad spectrum of central nervous system (CNS) neurons. Binds, in a calcium-dependent manner, to cultured neocortical neurons and promotes cell survival.

NSE Antibody / Neuron Specific Enolase
F54039-0.1ML 0.1 ml
EUR 322.15
Description: Neuron Specific Enolase (NSE, Enolase-2) has neurotrophic and neuroprotective properties on a broad spectrum of central nervous system (CNS) neurons. Binds, in a calcium-dependent manner, to cultured neocortical neurons and promotes cell survival.

NSE Antibody / Neuron Specific Enolase
RQ4566 100ug
EUR 356.15
Description: NSE (neuron specific enolase), also known as Enolase 2 (ENO2), is found in elevated concentrations in plasma in certain neoplasias. The enolases catalyze the interconversion of 2-phosphoglycerate to phosphoenolpyruvate in the glycolytic pathway. ENO2 gene contains 12 exons distributed over 9,213 nucleotides. Human neurone-specific enolase is mapped to chromosome 12p13.

NSE Antibody / Neuron Specific Enolase
RQ5267 100ul
EUR 356.15
Description: The ENO2 gene encodes one of the three enolase isoenzymes found in mammals. This isoenzyme, a homodimer, is found in mature neurons and cells of neuronal origin. A switch from alpha enolase to gamma enolase occurs in neural tissue during development in rats and primates. [RefSeq]

NSE Antibody / Neuron Specific Enolase
V8361-100UG 100 ug
EUR 424.15
Description: This monoclonal antibody recognizes a protein of about 50kDa, which is identified as gamma-enolase. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue whereas gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE-gamma is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas.It it be usually employed in combination with other markers such as Synaptophysin,Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V8361-20UG 20 ug
EUR 186.15
Description: This monoclonal antibody recognizes a protein of about 50kDa, which is identified as gamma-enolase. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue whereas gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE-gamma is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas.It it be usually employed in combination with other markers such as Synaptophysin,Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V8361SAF-100UG 100 ug
EUR 424.15
Description: This monoclonal antibody recognizes a protein of about 50kDa, which is identified as gamma-enolase. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue whereas gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE-gamma is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas.It it be usually employed in combination with other markers such as Synaptophysin,Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3398-100UG 100 ug
EUR 424.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3398-20UG 20 ug
EUR 186.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3398SAF-100UG 100 ug
EUR 424.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3400-100UG 100 ug
EUR 424.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3400-20UG 20 ug
EUR 186.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3400SAF-100UG 100 ug
EUR 424.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3498-100UG 100 ug
EUR 424.15
Description: This mAb recognizes a protein of about 50 kDa which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3498-20UG 20 ug
EUR 186.15
Description: This mAb recognizes a protein of about 50 kDa which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3498IHC-7ML 7 ml
EUR 424.15
Description: This mAb recognizes a protein of about 50 kDa which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V3498SAF-100UG 100 ug
EUR 424.15
Description: This mAb recognizes a protein of about 50 kDa which is identified as gamma-Enolase/Neuron Specific Enolase/Enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V7210-100UG 100 ug
EUR 424.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-enolase/neuron specific enolase/enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V7210-20UG 20 ug
EUR 186.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-enolase/neuron specific enolase/enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V7210SAF-100UG 100 ug
EUR 424.15
Description: Recognizes a protein of about 50kDa, which is identified as gamma-enolase/neuron specific enolase/enolase 2. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue and gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas. It it be usually employed in combination with other markers such as Synaptophysin, Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V7731-100UG 100 ug
EUR 424.15
Description: This monoclonal antibody recognizes a protein of about 50kDa, which is identified as gamma-enolase. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue whereas gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE-gamma is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas.It it be usually employed in combination with other markers such as Synaptophysin,Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V7731-20UG 20 ug
EUR 186.15
Description: This monoclonal antibody recognizes a protein of about 50kDa, which is identified as gamma-enolase. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue whereas gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE-gamma is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas.It it be usually employed in combination with other markers such as Synaptophysin,Chromogranin A, and Neurofilament.

NSE Antibody / Neuron Specific Enolase
V7731SAF-100UG 100 ug
EUR 424.15
Description: This monoclonal antibody recognizes a protein of about 50kDa, which is identified as gamma-enolase. Three isoenzymes of enolases are identified, alpha, beta and gamma. Alpha-isoform is expressed in most tissues, whereas beta-form is expressed predominantly in muscle tissue whereas gamma-enolase is found only in nervous tissue. These isoforms exist as both homodimers and heterodimers, and they play a role in converting phosphoglyceric acid to phosphenolpyruvic acid in the glycolytic pathway. NSE-gamma is a useful marker to identify peripheral nerves and tumors of neuro-endocrine origins, such as pheochromocytomas.It it be usually employed in combination with other markers such as Synaptophysin,Chromogranin A, and Neurofilament.

Enolase, Neuron Specific (NSE) Antibody
abx102347-100l 100 µl
EUR 250

Enolase, Neuron Specific (NSE) Antibody
abx102347-1ml 1 ml
EUR 675

Enolase, Neuron Specific (NSE) Antibody
abx102347-200l 200 µl
EUR 312.5

Enolase, Neuron Specific (NSE) Antibody
abx102348-100l 100 µl
EUR 250

Enolase, Neuron Specific (NSE) Antibody
abx102348-1ml 1 ml
EUR 675

Enolase, Neuron Specific (NSE) Antibody
abx102348-200l 200 µl
EUR 312.5

Enolase, Neuron Specific (NSE) Antibody
abx102349-100l 100 µl
EUR 262.5

Enolase, Neuron Specific (NSE) Antibody
abx102349-1ml 1 ml
EUR 687.5

Enolase, Neuron Specific (NSE) Antibody
abx102349-200l 200 µl
EUR 325

Enolase, Neuron Specific (NSE) Antibody
abx102350-100l 100 µl
EUR 262.5

Enolase, Neuron Specific (NSE) Antibody
abx102350-1ml 1 ml
EUR 725

Enolase, Neuron Specific (NSE) Antibody
abx102350-200l 200 µl
EUR 337.5

Enolase, Neuron Specific (NSE) Antibody
abx129524-100l 100 µl
EUR 262.5

Enolase, Neuron Specific (NSE) Antibody
abx129524-1ml 1 ml
EUR 687.5

Enolase, Neuron Specific (NSE) Antibody
abx129524-200l 200 µl
EUR 325

Enolase, Neuron Specific (NSE) Antibody
abx172246-1ml 1 ml
EUR 775

Neuron Specific Enolase (NSE) Antibody
abx020636-400l 400 µl Ask for price

Neuron Specific Enolase (NSE) Antibody
abx020636-80l 80 µl
EUR 887.5

Neuron Specific Enolase (NSE) Antibody
abx020637-100l 100 µl
EUR 712.5

Neuron Specific Enolase (NSE) Antibody
abx020639-400l 400 µl Ask for price

Neuron Specific Enolase (NSE) Antibody
abx020639-80l 80 µl
EUR 912.5

Neuron Specific Enolase (NSE) Antibody
abx020640-400l 400 µl Ask for price

Neuron Specific Enolase (NSE) Antibody
abx020640-80l 80 µl
EUR 912.5

Neuron Specific Enolase (NSE) Antibody
abx020641-100l 100 µl
EUR 912.5

Enolase, Neuron Specific (NSE) Antibody
abx270247-1ml 1 ml
EUR 387.5

Enolase, Neuron Specific (NSE) Antibody
abx270247-200l 200 µl
EUR 275

Anti-NSE (Neuron specific enolase) antibody
STJ120175 100 µl
EUR 562.8

Enolase, Neuron Specific (ENO2) Antibody (HRP)
20-abx108279
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  • 100 ug
  • 1 mg
  • 200 ug
  • 20 ug
  • 50 ug

Enolase, Neuron Specific (ENO2) Antibody (HRP)
20-abx108280
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  • 100 ug
  • 1 mg
  • 200 ug
  • 20 ug
  • 50 ug

Neuron Specific Enolase Antibody (phospho-Y236)
F48585-0.08ML 0.08 ml
EUR 140.25
Description: NSE is one of the three enolase isoenzymes found in mammals. This isoenzyme, a homodimer, is found in mature neurons and cells of neuronal origin. A switch from alpha enolase to gamma enolase occurs in neural tissue during development in rats and primates.

Enolase, Neuron Specific (NSE) Antibody (APC)
20-abx176282
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  • 1 mg
  • 200 ug

Enolase, Neuron Specific (ENO2) Antibody (FITC)
20-abx106859
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  • 100 ug
  • 1 mg
  • 200 ug
  • 20 ug
  • 50 ug

Enolase, Neuron Specific (ENO2) Antibody (FITC)
20-abx106860
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  • 100 ug
  • 1 mg
  • 200 ug
  • 20 ug
  • 50 ug

Enolase, Neuron Specific (ENO2) Antibody Pair
abx117504-1pair5x96wellplates 1 pair (5x96 well plates)
EUR 1212

OAMA01331-1MG - Neuron Specific Enolase Antibody
OAMA01331-1MG 1mg
EUR 659

OAMA01333-1MG - Neuron Specific Enolase Antibody
OAMA01333-1MG 1mg
EUR 659

OAMA01346-1MG - Neuron Specific Enolase Antibody
OAMA01346-1MG 1mg
EUR 659

OAMA01356-1MG - Neuron Specific Enolase Antibody
OAMA01356-1MG 1mg
EUR 659

NSE, (Neuron Specific Enolase) Antibody, Concentrate
MAB372C 0.2ml
EUR 455

Enolase, Neuron Specific (NSE) Antibody (FITC)
20-abx273791
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  • 100 ug
  • 10 ug
  • 1 mg
  • 200 ug
  • 50 ug

Enolase, Neuron Specific (NSE) Antibody (FITC)
20-abx274000
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  • 100 ug
  • 10 ug
  • 1 mg
  • 200 ug
  • 50 ug

Enolase, Neuron Specific (NSE) Antibody (FITC)
20-abx274136
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  • 100 ug
  • 10 ug
  • 1 mg
  • 200 ug
  • 50 ug

Enolase, Neuron Specific (NSE) Antibody Pair
20-abx370057
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  • 10 × 96 tests
  • 5 × 96 tests

Enolase, Neuron Specific (NSE) Antibody (FITC)
abx274000-10mg 10 mg
EUR 412.5

Enolase, Neuron Specific (NSE) Antibody (FITC)
abx274000-50mg 50 mg
EUR 975

Enolase, Neuron Specific (NSE) Antibody (FITC)
abx274136-05ml 0.5 ml
EUR 425

Enolase, Neuron Specific (NSE) Antibody (FITC)
abx273791-20g 20 g
EUR 950

Enolase, Neuron Specific (NSE) Antibody (FITC)
abx273791-5g 5 g
EUR 400

Neuron Specific Enolase (NSE) Antibody Pair
abx378044-96tests 96 tests
EUR 525

Enolase, Neuron Specific (NSE) Antibody Pair
abx370057-100g 100 µg
EUR 1325

NEURON SPECIFIC ENOLASE
GWB-A8348E 0.05 mg Ask for price

Neuron Specific Enolase
PR27173 25 ug
EUR 381.6

Neuron Specific Enolase (NSE) Antibody-HRP
E63C00702a 100μg/100μl
EUR 275
Description: Available in various conjugation types.

Enolase, Neuron Specific (ENO2) Antibody (Biotin)
20-abx105440
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  • 100 ug
  • 1 mg
  • 200 ug
  • 20 ug
  • 50 ug

Enolase, Neuron Specific (ENO2) Antibody (Biotin)
20-abx105441
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  • 100 ug
  • 1 mg
  • 200 ug
  • 20 ug
  • 50 ug

Enolase, Neuron Specific (NSE) Antibody (Biotin)
20-abx271998
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  • 100 ug
  • 10 ug
  • 1 mg
  • 200 ug
  • 50 ug

Enolase, Neuron Specific (NSE) Antibody (Biotin)
20-abx272702
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  • 100 ug
  • 10 ug
  • 1 mg
  • 200 ug
  • 50 ug

Enolase, Neuron Specific (NSE) Antibody (Biotin)
20-abx273178
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  • 100 ug
  • 10 ug
  • 1 mg
  • 200 ug
  • 50 ug

Enolase, Neuron Specific (NSE) Antibody (Biotin)
abx271998-1ml 1 ml
EUR 737.5

Enolase, Neuron Specific (NSE) Antibody (Biotin)
abx271998-200l 200 µl
EUR 337.5

Enolase, Neuron Specific (NSE) Antibody (Biotin)
abx272702-1ml 1 ml
EUR 762.5

Enolase, Neuron Specific (NSE) Antibody (Biotin)
abx272702-200l 200 µl
EUR 337.5

Enolase, Neuron Specific (NSE) Antibody (Biotin)
abx273178-10mg 10 mg
EUR 362.5

Enolase, Neuron Specific (NSE) Antibody (Biotin)
abx273178-50mg 50 mg
EUR 800

Rabbit Anti-NSE (Neuron specific enolase) Antibody
TA309202 100 µl Ask for price

Neuron Specific Enolase (NSE) Antibody-BIOTIN
E63C00703a 100μg/100μl
EUR 275
Description: Available in various conjugation types.

Polyclonal Neuron Specific Enolase (NSE) Antibody
APR08718G 0.1ml
EUR 580.8
Description: A polyclonal antibody raised in Rabbit that recognizes and binds to Human Neuron Specific Enolase (NSE) . This antibody is tested and proven to work in the following applications:

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27728-100ul 100ul
EUR 229.4

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27728-200ul 200ul
EUR 287.3

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27729-100ul 100ul
EUR 217.9

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27729-200ul 200ul
EUR 272.2

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27730-100ul 100ul
EUR 217.9

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27730-200ul 200ul
EUR 272.2

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27731-100ul 100ul
EUR 212.2

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27731-200ul 200ul
EUR 265.4

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27732-100ul 100ul
EUR 212.2

Enolase, Neuron Specific (NSE) Polyclonal Antibody
CAU27732-200ul 200ul
EUR 265.4

Enolase, Neuron Specific (NSE) Monoclonal Antibody
CAU29483-100ul 100ul
EUR 225.6

Enolase, Neuron Specific (NSE) Monoclonal Antibody
CAU29483-200ul 200ul
EUR 282.2

Enolase, Neuron Specific (NSE) Monoclonal Antibody
CAU29488-100ul 100ul
EUR 200.6

Enolase, Neuron Specific (NSE) Monoclonal Antibody
CAU29488-200ul 200ul
EUR 251.2

NSE, (Neuron Specific Enolase) Antibody, Ready-To-Use
MAB372P 7ml
EUR 445

Neuron Specific Enolase (NSE)
CH22126 100 ul of serum
EUR 490.8

Neuron Specific Enolase (NSE)
GWB-50534F 0.1 mg Ask for price

Neuron Specific Enolase (NSE)
GWB-87922F 0.1 mg Ask for price

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu21 100ul
EUR 235

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu22 100ul
EUR 209

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu23 100ul
EUR 245

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu24 100ul
EUR 252

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu25 100ul
EUR 239

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu26 100ul
EUR 239

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu27 100ul
EUR 242

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu28 100ul
EUR 239

Monoclonal Antibody to Enolase, Neuron Specific (NSE)
MAA537Hu29 100ul
EUR 239

Polyclonal Antibody to Enolase, Neuron Specific (NSE)
PAA537Hu01 100ul
EUR 221

Polyclonal Antibody to Enolase, Neuron Specific (NSE)
PAA537Hu02 100ul
EUR 221

Polyclonal Antibody to Enolase, Neuron Specific (NSE)
PAA537Mu01 100ul
EUR 227

Polyclonal Antibody to Enolase, Neuron Specific (NSE)
PAA537Mu02 100ul
EUR 227

Polyclonal Antibody to Enolase, Neuron Specific (NSE)
PAA537Ra01 100ul
EUR 239

Neuron Specific Enolase Protein
abx060902-100ug 100 ug
EUR 1387.2

Neuron Specific Enolase Protein
abx060902-100g 100 µg Ask for price

Neuron Specific Enolase Protein
abx060902-10g 10 µg
EUR 1862.5

Neuron Specific Enolase Protein
abx060902-50g 50 µg Ask for price

Neuron Specific Enolase (NSE) 98%
GWB-104D9E 1 mg Ask for price

Neuron Specific Enolase (NSE)/ENO2
CH23003 100 ul
EUR 214.8

Neuron Specific Enolase (NSE)/ENO2
RA22110 100 ul
EUR 490.8

Neuron Specific Enolase ELISA Kit
E4703-100 each
EUR 705.6

Enolase, Neuron Specific (NSE) Monoclonal Antibody (Human, Rat)
4-MAA537Hu21
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  • 100ul
  • 10ml
  • 1ml
  • 200ul
  • 20ul
Description: A Mouse monoclonal antibody against Human, Rat Enolase, Neuron Specific (NSE)

Enolase, Neuron Specific (NSE) Monoclonal Antibody (Human, Mouse)
4-MAA537Hu22
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  • 100ul
  • 10ml
  • 1ml
  • 200ul
  • 20ul
Description: A Mouse monoclonal antibody against Human, Mouse Enolase, Neuron Specific (NSE)

Enolase, Neuron Specific (NSE) Polyclonal Antibody (Human, Mouse)
4-PAA537Hu02
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  • 100ul
  • 10ml
  • 1ml
  • 200ul
  • 20ul
Description: A Rabbit polyclonal antibody against Human, Mouse Enolase, Neuron Specific (NSE)

Mouse Anti Human Neuron Specific Enolase Monoclonal Antibody
CABT-50869MH 1 ml
EUR 1388.4
These outcomes indicated that salinity and soil vitamins affected the range and construction of microbial communities. This research contributes to our understanding of the range, composition, and construction of photosynthetic microorganisms in bodily soil crusts and helps in growing new approaches for controlling desertification and salinization and bettering the desert ecological setting.