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Die folgenden MAPmates™ sollten nicht zusammen analysiert werden: -MAPmates™, die einen unterschiedlichen Assaypuffer erfordern. -Phosphospezifische und MAPmate™ Gesamtkombinationen wie Gesamt-GSK3β und Gesamt-GSK3β (Ser 9). -PanTyr und locusspezifische MAPmates™, z.B. Phospho-EGF-Rezeptor und Phospho-STAT1 (Tyr701). -Mehr als 1 Phospho-MAPmate™ für ein einziges Target (Akt, STAT3). -GAPDH und β-Tubulin können nicht mit Kits oder MAPmates™, die panTyr enthalten, analysiert werden.
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96-Well Plate
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48-602MAG
Buffer Detection Kit for Magnetic Beads
1 Kit
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06-1013
Sigma-AldrichAnti-NET5 Antibody
Use Anti-NET5 Antibody (Rabbit Polyclonal Antibody) validated in WB, ICC to detect NET5 also known as transmembrane protein 201.
More>>Use Anti-NET5 Antibody (Rabbit Polyclonal Antibody) validated in WB, ICC to detect NET5 also known as transmembrane protein 201. Less<<
Anti-NET5 Antibody: SDB (Sicherheitsdatenblätter), Analysenzertifikate und Qualitätszertifikate, Dossiers, Broschüren und andere verfügbare Dokumente.
Transmembrane protein 201, also known as NET5, is a transmembrane protein of the nuclear envelope that is homologous to spindle-associated membrane protein 1 (SAMP1) in humans. NET5 is thought to be expressed on the inner nuclear membrane during interphase and move to the polar regions of the mitotic spindle during mitosis.
References
Product Information
Format
Affinity Purified
Control
Human heart tissue lysate
Presentation
Purified rabbit polyclonal containing 0.1 M Tris-Glycine (pH 7.4), 150 mM NaCl with 0.05% sodium azide.
Use Anti-NET5 Antibody (Rabbit Polyclonal Antibody) validated in WB, ICC to detect NET5 also known as transmembrane protein 201.
Key Applications
Western Blotting
Immunocytochemistry
Application Notes
Western Blot Analysis: 1 µg/mL from a representative lot detected NET5 on 10 µg of rat heart tissue lysate.
Immunocytochemistry Analysis: A representative lot was used by an independent laboratory that detected NET5 in U2OS cells expressing various NET-GFP fusions. (Wilkie, G., et al. (2011) Mol. Cell Proteomics).
Biological Information
Immunogen
KLH-conjugated linear peptide corresponding to human NET5.
Concentration
Please refer to the Certificate of Analysis for the lot-specific concentration.
Host
Rabbit
Species Reactivity
Human
Mouse
Rat
Species Reactivity Note
Demonstrated to react with Human, Mouse, and Rat. Predicted to react with Orangutan based on sequence homology.
FUNCTION: Isoform SAMP1 may define a distinct membrane domain in the vicinity of the mitotic spindle. Ref.3
SUBCELLULAR LOCATION: Isoform SAMP1: Nucleus inner membrane; Multi-pass membrane protein. Note: The C-terminal of isoform SAMP1 is located on the nucleoplasmic side. During interphase, isoform SAMP1 is distributed in the inner nuclear membrane and during mitosis, it is found in the ER but it also localizes to the polar regions of the mitotic spindle. Ref.3
Molecular Weight
~72 and/or 43 kDa observed depending on lysate used. Isoform1: 72 kDa and Isoform 2: 43 kDa. Uncharacterized band at ~28 kDa may be observed in some lysates.
Physicochemical Information
Dimensions
Materials Information
Toxicological Information
Safety Information according to GHS
Safety Information
Product Usage Statements
Quality Assurance
Evaluated by Western Blot in human heart tissue lysate.
Western Blot Analysis: 1 µg/mL of this antibody detected NET5 on 10 µg of human heart tissue lysate.
Usage Statement
Unless otherwise stated in our catalog or other company documentation accompanying the product(s), our products are intended for research use only and are not to be used for any other purpose, which includes but is not limited to, unauthorized commercial uses, in vitro diagnostic uses, ex vivo or in vivo therapeutic uses or any type of consumption or application to humans or animals.
Specific nuclear envelope transmembrane proteins can promote the location of chromosomes to and from the nuclear periphery. Zuleger, N; Boyle, S; Kelly, DA; de las Heras, JI; Lazou, V; Korfali, N; Batrakou, DG; Randles, KN; Morris, GE; Harrison, DJ; Bickmore, WA; Schirmer, EC Genome biology
14
R14
2013
Different cell types have distinctive patterns of chromosome positioning in the nucleus. Although ectopic affinity-tethering of specific loci can be used to relocate chromosomes to the nuclear periphery, endogenous nuclear envelope proteins that control such a mechanism in mammalian cells have yet to be widely identified.To search for such proteins, 23 nuclear envelope transmembrane proteins were screened for their ability to promote peripheral localization of human chromosomes in HT1080 fibroblasts. Five of these proteins had strong effects on chromosome 5, but individual proteins affected different subsets of chromosomes. The repositioning effects were reversible and the proteins with effects all exhibited highly tissue-restricted patterns of expression. Depletion of two nuclear envelope transmembrane proteins that were preferentially expressed in liver each reduced the normal peripheral positioning of chromosome 5 in liver cells.The discovery of nuclear envelope transmembrane proteins that can modulate chromosome position and have restricted patterns of expression may enable dissection of the functional relevance of tissue-specific patterns of radial chromosome positioning.
Nuclear envelopes from liver and a neuroblastoma cell line have previously been analyzed by proteomics; however, most diseases associated with the nuclear envelope affect muscle. To determine whether muscle has unique nuclear envelope proteins, rat skeletal muscle nuclear envelopes were prepared and analyzed by multidimensional protein identification technology. Many novel muscle-specific proteins were identified that did not appear in previous nuclear envelope data sets. Nuclear envelope residence was confirmed for 11 of these by expression of fusion proteins and by antibody staining of muscle tissue cryosections. Moreover, transcript levels for several of the newly identified nuclear envelope transmembrane proteins increased during muscle differentiation using mouse and human in vitro model systems. Some of these proteins tracked with microtubules at the nuclear surface in interphase cells and accumulated at the base of the microtubule spindle in mitotic cells, suggesting they may associate with complexes that connect the nucleus to the cytoskeleton. The finding of tissue-specific proteins in the skeletal muscle nuclear envelope proteome argues the importance of analyzing nuclear envelopes from all tissues linked to disease and suggests that general investigation of tissue differences in organellar proteomes might yield critical insights.
