Darujte slevu 15 %, získejte zpět 10 % z každé objednávky, kterou zadá.
Sloučenina výzkumné kvality. Pouze pro laboratorní použití. Není určeno k použití, požití ani injekčnímu podání u lidí nebo zvířat. Nejsou činěna ani naznačována žádná lékařská tvrzení.
Doručení do EU za 11-14 pracovních dnů
Doprava zdarma nad €200 · bez celních dokladů (EU) · prostřednictvím EU carrier network
Doprava zdarma u objednávek nad €200
Research-grade Adamax. 99.3% avg purity, HPLC & MS verified. Lyophilized powder in sealed glass vial. For laboratory research use only. Not for human consumption.
| Množství | Cena za kus | Celkem | Úspora |
|---|---|---|---|
| 1 unit | 129,99 € | 129,99 € | -- |
| 3+ | 123,49 € | 370,47 € | 5% sleva |
| 5+Nejoblíbenější | 116,99 € | 584,96 € | 10% sleva |
| 10+ | 110,49 € | 1 104,92 € | 15% sleva |
Důležité upozornění
Tento produkt je určen výhradně pro laboratorní a výzkumné použití. Není určen k lidskému ani veterinárnímu použití. Nákupem potvrzujete, že tento produkt bude použit výhradně pro výzkumné účely in vitro.
Vyžaduje rekonstituci
Tento peptid je dodáván lyofilizovaný (suchý prášek) a před použitím vyžaduje rekonstituci bakteriostatickou vodou. BAC water se prodává samostatně.
Průměrná čistota HPLC 99.2%, ověřená nezávislým testováním třetí stranou
Protokol Janoshik bude publikován, jakmile bude k dispozici
Odeslání do 24 h, doručení po celé EU od 4,99 EUR
Specifikace šarže dodavatele u každého produktu; nezávislý protokol Janoshik u vybraných šarží
Adamax is a synthetic neuropeptide fragment based on the vasopressin analogue family, designed with modifications for improved CNS activity and stability. It is used in cognitive neuroscience research, particularly in memory consolidation and retrieval studies. The vasopressin-related peptides have a long history in memory research going back to the 1970s, when DeWied's group showed that vasopressin and its fragments influence avoidance learning and memory in rodents through CNS mechanisms distinct from vasopressin's peripheral endocrine roles (antidiuretic, vasoconstrictor).
Adamax's research context is the posterior pituitary neuropeptide family -- vasopressin (AVP) and oxytocin -- which have extensive CNS projections distinct from their pituitary hormonal release. These neuropeptides modulate hippocampal and amygdalar circuits relevant to memory encoding, social recognition memory, and stress responses. Modified short-chain fragments of vasopressin (like VP4-8, the parent compound of the adamax family) retain memory-influencing properties with reduced peripheral hormonal effects, making them more useful for isolating CNS cognitive effects.
Research applications include spatial and associative memory studies in rodents, investigations into vasopressin system contributions to CNS receptor binding markers, stress-memory interactions, and as a positive control for vasopressin-family peptide research.
| Parameter | Value |
|---|---|
| Compound | Adamax (vasopressin-derived cognitive nootropic peptide) |
| Amount per Vial | 5mg |
| Purity | 99.3% avg (HPLC verified) |
| Format | Lyophilized powder |
| Reconstitution | Sterile water or saline |
| Storage | -20°C; 2-8°C after reconstitution |
Store at -20°C before reconstitution. Refrigerate at 2-8°C after reconstitution and use within 28 days. Stable lyophilized for 24+ months under proper storage.
The connection between vasopressin and memory originates from work by David DeWied and colleagues in the 1970s-80s, who showed that vasopressin administered peripherally or centrally improved performance in avoidance learning tests in rats, while vasopressin-deficient (Brattleboro) rats showed memory impairments that could be reversed by vasopressin treatment. Subsequent work identified that short fragments of vasopressin (particularly C-terminal fragments like VP4-8) retained memory-facilitating properties without peripheral hormonal effects, suggesting these effects were mediated by CNS receptors. This research tradition led to development of modified fragments like those in the adamax family.
Vasopressin V1a receptors are expressed in the hippocampus, amygdala, septum, and other limbic structures involved in memory encoding and consolidation. Vasopressin acts as a neuromodulator in these circuits, influencing synaptic plasticity and the encoding of emotionally significant or aversive events. It enhances memory consolidation for avoidance tasks and influences social recognition memory through amygdala V1a signaling. The stress-memory interaction is also relevant: vasopressin release during stress may help encode stress-related memories, which connects vasopressin research to PTSD-related neuroscience.
Common tasks include passive avoidance (one-trial learning with a foot shock), active avoidance, Morris water maze (spatial memory), novel object recognition, and social recognition memory. These tasks have established sensitivity to vasopressin-system interventions. The passive avoidance test is particularly associated with the DeWied vasopressin memory literature because vasopressin fragments robustly improve retention in this paradigm. For researchers studying memory peptides, choosing the appropriate behavioral assay for the memory system of interest (hippocampus-dependent, amygdala-dependent, etc.) is important for interpretable results.
Adamax is supplied for laboratory research use only. Not approved for human use. Handle in compliance with institutional biosafety guidelines.
Adamax is a synthetic neuropeptide fragment based on the vasopressin analogue family, designed with modifications for improved CNS activity and stability. It is used in cognitive neuroscience research, particularly in memory consolidation and retrieval studies. The vasopressin-related peptides have a long history in memory research going back to the 1970s, when DeWied's group showed that vasopressin and its fragments influence avoidance learning and memory in rodents through CNS mechanisms distinct from vasopressin's peripheral endocrine roles (antidiuretic, vasoconstrictor).
Adamax's research context is the posterior pituitary neuropeptide family -- vasopressin (AVP) and oxytocin -- which have extensive CNS projections distinct from their pituitary hormonal release. These neuropeptides modulate hippocampal and amygdalar circuits relevant to memory encoding, social recognition memory, and stress responses. Modified short-chain fragments of vasopressin (like VP4-8, the parent compound of the adamax family) retain memory-influencing properties with reduced peripheral hormonal effects, making them more useful for isolating CNS cognitive effects.
Research applications include spatial and associative memory studies in rodents, investigations into vasopressin system contributions to CNS receptor binding markers, stress-memory interactions, and as a positive control for vasopressin-family peptide research.
| Parameter | Value |
|---|---|
| Compound | Adamax (vasopressin-derived cognitive nootropic peptide) |
| Amount per Vial | 5mg |
| Purity | 99.3% avg (HPLC verified) |
| Format | Lyophilized powder |
| Reconstitution | Sterile water or saline |
| Storage | -20°C; 2-8°C after reconstitution |
Store at -20°C before reconstitution. Refrigerate at 2-8°C after reconstitution and use within 28 days. Stable lyophilized for 24+ months under proper storage.
The connection between vasopressin and memory originates from work by David DeWied and colleagues in the 1970s-80s, who showed that vasopressin administered peripherally or centrally improved performance in avoidance learning tests in rats, while vasopressin-deficient (Brattleboro) rats showed memory impairments that could be reversed by vasopressin treatment. Subsequent work identified that short fragments of vasopressin (particularly C-terminal fragments like VP4-8) retained memory-facilitating properties without peripheral hormonal effects, suggesting these effects were mediated by CNS receptors. This research tradition led to development of modified fragments like those in the adamax family.
Vasopressin V1a receptors are expressed in the hippocampus, amygdala, septum, and other limbic structures involved in memory encoding and consolidation. Vasopressin acts as a neuromodulator in these circuits, influencing synaptic plasticity and the encoding of emotionally significant or aversive events. It enhances memory consolidation for avoidance tasks and influences social recognition memory through amygdala V1a signaling. The stress-memory interaction is also relevant: vasopressin release during stress may help encode stress-related memories, which connects vasopressin research to PTSD-related neuroscience.
Common tasks include passive avoidance (one-trial learning with a foot shock), active avoidance, Morris water maze (spatial memory), novel object recognition, and social recognition memory. These tasks have established sensitivity to vasopressin-system interventions. The passive avoidance test is particularly associated with the DeWied vasopressin memory literature because vasopressin fragments robustly improve retention in this paradigm. For researchers studying memory peptides, choosing the appropriate behavioral assay for the memory system of interest (hippocampus-dependent, amygdala-dependent, etc.) is important for interpretable results.
Adamax is supplied for laboratory research use only. Not approved for human use. Handle in compliance with institutional biosafety guidelines.
Důvěra výzkumníků
Kdo to vlastně testuje?
Vybrané loty jsou nezávisle ověřovány společností Janoshik Analytical (Česká republika) a zveřejňovány na veřejném portálu Janoshik. Ostatní loty se odesílají se specifikací šarže dodavatele. Zveřejněný přehled najdete na /coa.
Zobrazit COA →Co když dostanu špatnou šarži?
Každá etiketa lahvičky nese číslo lotu, které odpovídá konkrétnímu certifikátu analýzy. Pokud šarže nevyhoví specifikaci, neodesíláme ji — tečka.
Zobrazit COA →Odkud se to odesílá?
Z Rumunska (EU). Jsme CERTALAB SRL, CUI 54169956, registrovaní k DPH. Sameday pro Rumunsko, GLS pro většinu destinací v EU, TCE Worldwide pro ostatní přeshraniční trhy v rámci EU i mimo ni (Velká Británie, Švýcarsko, Norsko, Island, Izrael, Srbsko). Doručení 1–15 pracovních dní podle destinace — přesné okno se zobrazí u pokladny.
Podrobnosti o dopravě →Co když nastane problém?
Máte 14denní právo na odstoupení podle OUG 34/2014 (rumunské/EU spotřebitelské právo), s možností eskalace na ANPC/ODR. Kontaktujte nás na support@certapeptides.com.
Zásady vracení →Tento produkt je určen výhradně pro účely vědeckého výzkumu a vývoje. Jde o chemickou látku, kterou nelze používat jako lék, léčivo, účinnou látku ani jako složku jakéhokoli produktu určeného ke konzumaci lidmi či zvířaty. Výzkumní pracovníci musí s touto sloučeninou zacházet v souladu se svými institucionálními pokyny pro biologickou bezpečnost. Používejte ji pouze v náležitě vybavených laboratorních prostorách s odpovídajícími osobními ochrannými prostředky.