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Главная страница ПродукцияFMOC-аминокислоты

Fmoc-N-Me-Val-Val CAS 3119888-44-4 Dipeptide Derivative SPPS Intermediate

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Китай SICHUAN HONGRI PAHRM-TECH CO., LTD Сертификаты
Китай SICHUAN HONGRI PAHRM-TECH CO., LTD Сертификаты

Fmoc-N-Me-Val-Val CAS 3119888-44-4 Dipeptide Derivative SPPS Intermediate

Fmoc-N-Me-Val-Val CAS 3119888-44-4 Dipeptide Derivative SPPS Intermediate
Fmoc-N-Me-Val-Val CAS 3119888-44-4 Dipeptide Derivative SPPS Intermediate

Большие изображения :  Fmoc-N-Me-Val-Val CAS 3119888-44-4 Dipeptide Derivative SPPS Intermediate Лучшая цена

Подробная информация о продукте:
Сертификация: ISO 9001 COA HPLC NMR
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Подробное описание продукта
№ КАС: 3119888-44-4 появление: Белый порошок
№ КАС: 3119888-44-4
Выделить:

Fmoc-N-Me-Val-Val dipeptide derivative

,

Fmoc-N-Me-Val-Val SPPS intermediate

,

FMOC-amino acids CAS 3119888-44-4

Fmoc-N-Me-Val-Val CAS 3119888-44-4 Dipeptide Derivative SPPS Intermediate

High-purity Fmoc-N-Me-Val-Val for peptide development.

Name Fmoc-N-Me-Val-Val
CAS NO 3119888-44-4
Molecular Weight 452.55
Appearance White Powder
HPLC Purity 99%+
Synonyms Fmoc-N-Me-Val-Val
Key Applications
1. Solid-Phase Peptide Synthesis (SPPS)

The product is mainly used in Fmoc-based solid-phase peptide synthesis (SPPS) for the efficient incorporation of an N-methylated hydrophobic dipeptide fragment into peptide sequences.

Compared with introducing amino acids step-by-step, the use of pre-assembled dipeptide building blocks can:

  • Improve coupling efficiency
  • Reduce racemization risk
  • Simplify difficult peptide synthesis
  • Increase overall peptide yield
  • Minimize steric hindrance during elongation

This is particularly valuable for synthesizing:

  • Long peptides
  • Sterically hindered sequences
  • Aggregation-prone peptides
2. Introduction of N-Methylated Peptide Motifs

The N-methyl amino acid structure is an important modification strategy in medicinal peptide chemistry.

Incorporation of the N-methylated Val-Val motif can:

  • Enhance enzymatic stability
  • Improve resistance to protease degradation
  • Reduce intermolecular hydrogen bonding
  • Modify peptide secondary structure
  • Increase lipophilicity
  • Improve membrane permeability
  • Potentially enhance oral bioavailability

Therefore, this building block is frequently used in:

  • Therapeutic peptide optimization
  • Peptide lead modification
  • Structure-activity relationship (SAR) studies
3. Cyclic Peptide and Peptidomimetic Synthesis

The compound is commonly applied in the synthesis of:

  • Cyclic peptides
  • Stapled peptides
  • Lipopeptides
  • Peptidomimetics
  • Constrained peptide analogs

The hydrophobic Val-Val sequence combined with N-methylation helps:

  • Stabilize bioactive conformations
  • Improve receptor selectivity
  • Reduce peptide flexibility
  • Enhance pharmacokinetic properties

Such strategies are widely adopted in next-generation peptide therapeutics.

4. Drug Discovery and Pharmaceutical Research

This intermediate is frequently utilized in:

  • Peptide drug discovery programs
  • GLP-1 analog development
  • Oncology peptide research
  • Antimicrobial peptide optimization
  • CNS-targeting peptide studies

N-methylated peptide fragments are especially important in projects aiming to improve:

  • Half-life
  • Tissue penetration
  • Oral delivery potential
  • In vivo stability
5. CRO/CDMO and Commercial Peptide Manufacturing

The product is also used by:

  • Peptide CROs
  • CDMOs
  • Pharmaceutical companies
  • Academic peptide research laboratories

Typical applications include:

  • Custom peptide synthesis
  • GMP peptide manufacturing
  • Advanced peptide intermediate production
  • Process development and scale-up

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