Biologia cellulare e molecolare

La biologia cellulare e molecolare è un ramo fondamentale della scienza che studia la struttura e la funzione delle cellule a livello molecolare. Questo campo comprende una vasta gamma di ricerche, tra cui genetica, biochimica, biotecnologia e medicina, fornendo conoscenze essenziali per lo sviluppo di trattamenti medici, terapie geniche e progressi in biotecnologia. Presso CymitQuimica, offriamo un'ampia selezione di prodotti di alta qualità e purezza per la ricerca in biologia cellulare e molecolare. Il nostro catalogo include reagenti, kit di saggio, anticorpi, proteine, acidi nucleici e altri prodotti specializzati che supportano i ricercatori nei loro studi sulla struttura e funzione cellulare, segnalazione molecolare, espressione genica e molti altri aspetti critici della biologia. Queste risorse sono progettate per facilitare le scoperte scientifiche e le applicazioni pratiche in vari ambiti delle bioscienze.

EHD1

EHD1 is a member of the C-terminal EPS15-Homology Domain-containing (EHD) protein family and is involved in recycling cell surface receptors.

Peso molecolare: 1,367.7 g/mol

1D,6L-Lanthionine vasopressin

1D,6L-Lanthionine vasopressin

Peso molecolare: 1,051.5 g/mol

Dystrophin (2765-2777)

Forms of inherited muscular dystrophy such as Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) result from mutations targeting the dystrophin gene. These disorders are X-linked, progressive, and cause the gradual weakening of the muscles leading to respiratory failure and ultimately reduces the patient lifespan.In DMD, mutations lead to the production of premature stop codons and hence the truncated dystrophin protein product is vulnerable to nonsense mediated decay and degradation. Therefore, dystrophin production in muscle cells is reduced. On the other hand, nonsense mutations which also contribute to DMD, cause exon skipping in BMD and result in an internally truncated protein product which are partially functional. The symptoms of BMD are later onset compared with DMD which develop in patients between 2 to 7 years.Treatments of dystrophin disorders are in clinical trial including antisense oligonucleotide exon skipping and gene therapy. However, the efficacies of these treatments are not easily quantified. Currently levels of muscular dystrophin are quantified by western blot which can be unreliable. The peptide provided here, aligning residues dystrophin (2690-2700), has been tested via mass spectrometry to provide a more reliable method of validation of dystrophin levels. Further study with this dystrophin fragment could prove to be a vital step in the understanding and treatment of dystrophin disorders. Within our catalogue we also have other peptides tested for dystrophin quantification available plus the full-length dystrophin protein.

Peso molecolare: 1,401.7 g/mol

Dystrophin, DMD

The Dystrophin protein, encoded by the dystrophin gene, is part of the dystrophin glycoprotein complex which connects the inner cytoskeleton to the extracellular matrix in muscle fibres. This allows the muscle cell plasma membrane to remain structurally stable.Forms of inherited muscular dystrophy such as Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) result from mutations targeting the dystrophin gene. These disorders are X-linked, progressive and cause the gradually weakening of the muscles leading to respiratory failure and ultimately reduces the patient lifespan.In DMD, mutations lead to the production of premature stop codons and hence the truncated dystrophin protein product is vulnerable to nonsense mediated decay and degradation. Therefore dystrophin production in muscle cells is reduced. On the other hand, nonsense mutations which also contribute to DMD, cause exon skipping in BMD and result in an internally truncated protein product which are partially functional. The symptoms of BMD are later onset compared with DMD which develop in patients between 2 to 7 years.

Peso molecolare: 1,515.8 g/mol

Dystrophin (50-61)

Forms of inherited muscular dystrophy such as Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) result from mutations targeting the dystrophin gene. These disorders are X-linked, progressive, and cause the gradual weakening of the muscles leading to respiratory failure and ultimately reduces the patient lifespan.In DMD, mutations lead to the production of premature stop codons and hence the truncated dystrophin protein product is vulnerable to nonsense mediated decay and degradation. Therefore, dystrophin production in muscle cells is reduced. On the other hand, nonsense mutations which also contribute to DMD, cause exon skipping in BMD and result in an internally truncated protein product which are partially functional. The symptoms of BMD are later onset compared with DMD which develop in patients between 2 to 7 years.Treatments of dystrophin disorders are in clinical trials including antisense oligonucleotide exon skipping and gene therapy. However, the efficacies of these treatments are not easily quantified. Currently levels of muscular dystrophin are quantified by western blot which can be unreliable. The peptide provided here, aligning residues dystrophin (50-61), has been used to try and create a quantifiable method that is reproducible. The method used was not successful, but dystrophin (50-61) remains a useful tool to create a potential quantification method for diagnosis and progress of dystrophin disorders as it was effectively detected by mass spectrometry and Western blot. Within our catalogue we also have other peptides tested for dystrophin quantification available plus the full-length dystrophin protein.

Dystrophin (2690-2700)

Forms of inherited muscular dystrophy such as Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) result from mutations targeting the dystrophin gene. These disorders are X-linked, progressive, and cause the gradual weakening of the muscles leading to respiratory failure and ultimately reduces the patient lifespan.In DMD, mutations lead to the production of premature stop codons and hence the truncated dystrophin protein product is vulnerable to nonsense mediated decay and degradation. Therefore, dystrophin production in muscle cells is reduced. On the other hand, nonsense mutations which also contribute to DMD, cause exon skipping in BMD and result in an internally truncated protein product which are partially functional. The symptoms of BMD are later onset compared with DMD which develop in patients between 2 to 7 years.Treatments of dystrophin disorders are in clinical trial including antisense oligonucleotide exon skipping and gene therapy. However, the efficacies of these treatments are not easily quantified. Currently levels of muscular dystrophin are quantified by western blot which can be unreliable. The peptide provided here, aligning residues dystrophin (2690-2700), has been tested via western blot, mass spectrometry, immunostaining and RT-PCR to try and provide the most robust method of validation of dystrophin levels possible. Further study with this dystrophin fragment could prove to be a vital step in the understanding and treatment of dystrophin disorders. Within our catalogue we also have other peptides tested for dystrophin quantification available plus the full-length dystrophin protein.

LP2

LP2

Peso molecolare: 938.5 g/mol

Dystrophin (396-405)

Forms of inherited muscular dystrophy such as Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) result from mutations targeting the dystrophin gene. These disorders are X-linked, progressive, and cause the gradual weakening of the muscles leading to respiratory failure and ultimately reduces the patient lifespan.In DMD, mutations lead to the production of premature stop codons and hence the truncated dystrophin protein product is vulnerable to nonsense mediated decay and degradation. Therefore, dystrophin production in muscle cells is reduced. On the other hand, nonsense mutations which also contribute to DMD, cause exon skipping in BMD and result in an internally truncated protein product which are partially functional. The symptoms of BMD are later onset compared with DMD which develop in patients between 2 to 7 years.Treatments of dystrophin disorders are in clinical trials including antisense oligonucleotide exon skipping and gene therapy. However, the efficacies of these treatments are not easily quantified. Currently levels of muscular dystrophin are quantified by western blot which can be unreliable. The peptide provided here, aligning residues dystrophin (396-405), has been shown to provide absolute quantification of dystrophin levels from biopsies using parallel reaction monitoring. This will hopefully allow better management of dystrophin disorders with better quantifications tools based on dystrophin (396-405). Further study with this dystrophin fragment could prove to be a vital step in the understanding and treatment of dystrophin disorders. Within our catalogue we also have other peptides tested for dystrophin quantification available plus the full-length dystrophin protein.

Pipamperone

CAS:

• 1893-33-0

Formula: C₂₁H₃₀FN₃O₂

Purezza: >98.0%(HPLC)

Colore e forma: White to Light yellow to Light orange powder to crystal

Peso molecolare: 375.49

Lubiprostone

CAS:

• 136790-76-6

Formula: C₂₀H₃₂F₂O₅

Purezza: >97.0%(HPLC)

Colore e forma: White to Light yellow powder to crystal

Peso molecolare: 390.47

2,6-Di-O-methyl-β-cyclodextrin

CAS:

• 51166-71-3

Formula: C₅₆H₉₈O₃₅

Purezza: >95.0%(HPLC)

Colore e forma: White to Light yellow powder to crystal

Peso molecolare: 1,331.37

CUBIC-HV™1 3D nuclear staining kit

Purezza: min. 95.0 area%(HPLC)

Colore e forma: Colorless - Almost Colorless Liquid

Indocyanine Green

CAS:

• 3599-32-4

Formula: C₄₃H₄₇N₂NaO₆S₂

Colore e forma: Light yellow to Amber to Dark green powder to crystal

Peso molecolare: 774.97

Thifensulfuron-methyl

CAS:

• 79277-27-3

Formula: C₁₂H₁₃N₅O₆S₂

Purezza: >97.0%(HPLC)

Colore e forma: White to Almost white powder to crystal

Peso molecolare: 387.39

QNZ

CAS:

• 545380-34-5

Formula: C₂₂H₂₀N₄O

Purezza: >98.0%(HPLC)

Colore e forma: White to Light yellow to Green powder to crystal

Peso molecolare: 356.43

Betulinic Acid

CAS:

• 472-15-1

Formula: C₃₀H₄₈O₃

Purezza: >97.0%(GC)(T)

Colore e forma: White to Light yellow to Light orange powder to crystal

Peso molecolare: 456.71

β-Nicotinamide Adenine Dinucleotide oxidized form [for Biochemical Research]

CAS:

• 53-84-9

Formula: C₂₁H₂₇N₇O₁₄P₂

Purezza: >95.0%(T)(HPLC)

Colore e forma: White to Almost white powder to crystal

Peso molecolare: 663.43

Ruthenium(II) Nitrosyl Chloride

CAS:

• 18902-42-6

Formula: RuCl₃NO

Purezza: >97.0%(T)

Colore e forma: Yellow to Amber to Dark red powder to crystal

Peso molecolare: 255.45

CUBIC-HV™1 3D immunostaining kit (Casein separately)

Colore e forma: Colorless Liquid

Mono-6-O-mesitylenesulfonyl-γ-cyclodextrin

CAS:

• 174010-62-9

Formula: C₅₇H₉₀O₄₂S

Purezza: >90.0%(HPLC)

Colore e forma: White to Almost white powder to crystal

Peso molecolare: 1,479.37