Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock

Product Details
Customization: Available
Peptide Purity: >99%
Bacterial Endotoxins: < 10 EU/Mg
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  • Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock
  • Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock
  • Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock
  • Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock
  • Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock
  • Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock
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  • Overview
  • Services
  • Product Description
  • Catalog Peptides
  • FAQ
Overview

Basic Info.

Model NO.
759648
Total Combined Yeasts and Moulds Count
< 10 Cfu/G
Transport Package
Vials/Tube
Specification
5mg, 10mg, 15mg, 20mg, 25mg, 30mg, 1g
Trademark
ZB
Origin
China
Production Capacity
1-5kgs Per Month

Product Description

 

Services

Free Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in StockFree Custom Labels Kpv/ Mots-C/ Mt2/ Chk-Cu/ Nad+ 99% Purity in Stock

Product Description


Products NameNAD+ 
CAS No.: 53-84-9
Purity: >99.0%
Molecular Formula: C21H27N7O14P2
Molecular Weight: 663.43g/mol
Application: Longevity supplements
Packing:100mg 500mg 1000mg
Appearance: White Lyophilized powder
Reconstitution: Required 
Storage: After reconstitution store at 2°C - 8°C

 

Description:

What is NAD+ ?

NAD+, which stands for nicotinamide adenine dinucleotide, is a critical coenzyme in the body that's involved in hundreds of cellular processes, but NAD+ levels decline with age. The body needs NAD+ and there is not an endless supply of it. NAD+ plays a key role in helping your brain cells age well. Within brain cells, NAD+ helps control the production of PGC-1-alpha, a protein that appears to help protect cells against oxidative stress and impaired mitochondrial function. Because of the role it plays in so many different biological processes, scientists and doctors are now looking at different ways it can be used to maintain healthy organs and neurological systems in human patients.
NAD+ is what's called a "helper molecule" because it binds to other enzymes in the body to activate them and generate molecular reactions. For example, proteins called "sirtuins," which are responsible for carrying out many biological processes within the human body, require the coenzyme to function properly. In layman's terms, we need NAD+ to live. However, as we get older, our bodies generate less and less of the coenzyme. This is one reason why we begin to feel the effects of aging and become more prone to age-related illnesses as the years pass by.

 

NAD+ Benefits:

  • Slows cognitive decline
  • Decelerate aging
  • Improved athletic performance and endurance
  • Promotes healthy brain function
  • Fights chronic fatigue
  • Increases energy
  • Boosts metabolism
  • Regenerates cells
  • Reduces internal inflammation

 

Catalog Peptides
Product No. Product
45051511 sema 5mg
45051512 sema 10mg
45051513 sema+Vitamin B12
45051514 sema+Vitamin B6
45051515 sema+L-Carnitine
45051516 sema cartridges 5mg
45051517 sema cartridges 10mg
45051518 Setmelanotide 20mg
45051519 Tirz 5mg
45051520 Tirz 10mg
45051521 Tirz 15mg
45051522 Tirz 20mg
45051523 Tirz 30mg
45051524 Tirz+Vitamin B12
45051525 Liraglutide 10g
45051526 Retatrutide 8mg
45051527 Retatrutide 10mg
45051528 Retatrutide 12mg
45051529 Orforglipron 1g
45051530 Mazdutide 1g
45051531 NAD+ 500mg
45051532 NAD+ 750mg
45051533 NAD+ 1000mg
45051534 NMN 150mg
45051538 Adipotide/FTPP 10mg
45051539 α-Klotho (Alpha Klotho) 50µg
45051541 A960 5mg
45051542 ARA-290 16mg
45051543 57 5mg
45051544 57 10mg
45051545 B7-33 5mg
45051546 cAC-253 (Cyclic AC-253) 10mg
45051549 DSIP 5mg
45051550 DSIP 10mg
45051551 Epitalon 10mg
45051552 Epitalon 20mg
45051553 Epitalon 100mg
45051554 FG loop (FGL) 10mg
45051556 F344 1mg
45051557 FOXO4-DRI 10mg
45051559 GHK-Cu (Copper Peptide) 50mg
45051560 GHK-Cu (Copper Peptide) 100mg
45051561 G2 10mg
45051562 G6 10mg
45051563 Gona 10mg
45051564 HC5000
45051565 Hexa 2mg
45051566 Hexa 5mg
45051568 Humanin 10mg
45051573 Ipam 5mg
45051575 5mg
45051576 10mg
45051577 KPV 5mg
45051578 KPV 10mg
45051579 LL-37 (CAP-18) 5mg
45051580 Melanotan 1 10mg
45051581 Melanotan 2 10mg
45051582 MOTS-c 5mg (acetate, TFA removed)
45051583 MOTS-c 10mg  (acetate, TFA removed)
45051584 N-Acetyl Epitalon Amidate 10mg
45051585 N-Acetyl Selank Amidate 10mg
45051586 N-Acetyl Semax Amidate 30mg
45051587 Oxytocin 10mg
45051588 PNC-27 5mg
45051590 P21 (P021) 5mg
45051591 Selank 10mg
45051592 Semax 10mg
45051593 Sermo 2mg
45051594 Sermo 5mg
45051595 SS-31 40mg
45051596 Taltirelin 10mg
45051597 Tesam 2mg
45051598 Tesam 5mg
45051600 Thymalin 20mg (63958-90-7)
45051601 Thymosin Alpha-1 3mg
45051602 Thymosin Alpha-1 5mg
45051603 Thymosin Alpha-1 10mg
45051604 Thymosinb4 5mg
45051605 Thymosinb4 10mg
45051607 TP508 Thrombin Peptide 10mg
45051608 TRH Thyrotropin (Protirelin Acetate) 20mg
45051609 VIP (Vasoactive Intestinal Peptide) 6mg
45051610 Bronchogen (Bronchi) 20mg
45051611 Cardiogen (Myocardium) 20mg
45051612 Cartalax (Joints) 20mg
45051613 Chonluten (Respiratory organs) 20mg
45051614 Cortagen (Brain) 20mg
45051615 Crystagen (Immune system) 20mg
45051616 Livagen (Liver) 20mg
45051617 Pancragen (Pancreas) 20mg
45051618 Pinealon (Brain) 20mg
45051619 Prostamax (Prostate) 20mg
45051620 Testagen (Testes) 20mg
45051621 Vesugen (Blood vessels) 20mg
45051622 Vilon (Eye retina) 20mg
45051623 B15, T50 Blend 10mg
FAQ
Can you synthesize peptides with post-translational modifications?
Yes, we can synthesize peptides with a variety of modifications including post-translational modifications (PTMs).  Some of the post-translational modifications that we can perform as a part of our peptide manufacturing services are:

Acetylation
Cyclizations (including disulfide bonding, stapling)
Fatty Acylation
Glycosylation
Hydroxylation
Incorporation of D-Amino Acids and Unnatural Amino Acids
Methylation
Pegylation
Phosphorylation
Questions? Feel free to contact us or request a quote for your upcoming peptide project today. LexinPharma has extensive experience in synthesizing peptides containing these modifications in scales up to late-clinical and commercial stages.
Do you make peptides as a starting material for radiolabeled peptides?
LexinPharma can manufacture chelator-modified peptides as a starting material for radiolabeled peptides or peptide radiotracers. Some examples include synthesis of DOTA/NODAGA-functionalized peptides. These peptides are then often later radiolabeled with 68Ga or 177Lu and used for tumor imaging for diagnosis and therapy or theranostics such as peptide receptor radionuclide therapy (PRRT).

Other modifications include peptides modified with di-iodo-Tyr, dehydro-Leu, or dehydro-Pro for reductive tritiation, peptide resin for N-terminal capping with C14-acetic anhydride, and peptides modified for click chemistry introduction of radioactive fluorine isotopes.

Contact us to learn more about our capabilities in peptide synthesis.
What synthesis approach should be taken for a toxicology (tox) and Phase I batch?
There are typically 2 approaches for a tox and Phase I batch. Here are a few guidelines:

Two batch approach:
A tox batch (nonGMP with batch records, additional release testing, and purposefully targets a lower purity) for a GLP tox study, followed by a cGMP clinical batch for a Phase 1 clinical trial (that has a higher purity than the tox batch & sets individual related substance limits based on the tox lot).

One batch approach:
A single cGMP batch to be used for both tox and Phase 1 that will have identical impurity profiles.
There are advantages and disadvantages to be considered for each scenario.

Have more questions? Our experienced staff would be happy to help you determine the type of strategy that your project needs. 
When do I need cGMP peptides?
A question we often get asked is when do I need cGMP peptides? Here is a guideline:

Preclinical studies: research grade peptide (nonGMP) is sufficient for nearly all cases.

Toxicology (tox) batch: If there are no plans for use of the batch in Phase I studies, research grade (nonGMP) material is acceptable, though batch records and additional release testing are recommended. If the tox batch will also be used in later clinical studies, cGMP grade is required. There are advantages and disadvantages to each scenario.

While not a "requirement", it is recommended to use lower purity material for tox as the related substances from the tox batch will become the basis for related substance limits in subsequent cGMP batches (related substances limits that are set tight due to the constraints of an overly pure tox batch can reduce yield and drive up costs of the subsequent cGMP batches).

Phase I and beyond: cGMP peptide is required.
Which salt form should I choose for my peptide?
When developing your peptide, you will need to select a salt form which is acceptable for your future clinical studies or desired application.

Most peptides form salts if they contain a free amino group (found in a free N-terminus or on a side chain that has a free amine, for example, Arg, Lys, and His).

In early research and development, many peptides are used as the trifluoroacetate (TFA) salt.  This is because a TFA salt is typically formed due to exposure to a TFA/H2O buffer system in reverse phase high-performance liquid chromatography (HPLC) purification. In solid phase peptide synthesis (SPPS), the peptide may also be exposed to TFA during the cleavage of the peptide from the resin support. The TFA salt can be converted to another salt form (such as acetate or HCl) through ion exchange in subsequent step.

Acetate salts are usually the most common counterion choice and preferred in later development over and HCl and TFA salts. They are also chosen because they usually result in a better lyophilizate cake, in contrast to some difficult to handle, "fluffy" peptides that may result from TFA salts. TFA salt may also induce undesirable immune responses during clinical trials, although two FDA-approved drugs are on the market as TFA salts, bivalirudin and corticorelin, with no issues. You might consider starting out with an acetate salt form to avoid having to make a change later in your product development.

On the other hand, certain amino acid side chains may influence which counterion is better suited for the stability of your product. A sodium salt (Na+) is useful for peptides with acidic isoelectric points (pI) as with those containing several Asp and Glu, as well as a C-terminal acid. In many cases, peptides with free sulfhydryl groups as HCl salts have better stability against potential oxidation impurities. Similarly, salt form choice may impact peptide solubility.  In addition, salt form can also play a role in secondary structure, with some anions inducing or suppressing helical structures and have also been seen to affect fibril formation and stability in peptides such as amyloid beta-protein (Aß).

Careful peptide salt form consideration from the beginning may result in a cost savings later down the road. The team at LexinPharma is also here to help you as you choose a salt form most appropriate for your research and development needs.
What does cGMP mean?
cGMP refers to the current Good Manufacturing Practice regulations enforced by the U. S. Food and Drug Administration (FDA) under the Federal Food, Drug, and Cosmetic Act. The regulations are in 21 CFR, parts 210 and 211.

The purpose of these regulations is to assure the identity, strength, quality, and purity of drug products by requiring that peptide manufacturers adequately control manufacturing operations. This includes excellent quality management systems, robust peptide supply chain management and risk mitigation, obtaining high-quality raw materials, establishing and validating operating procedures (SOPs), detecting and investigating product quality deviations, and maintaining validated quality control testing laboratories.
What quality control data do you provide for non-GMP grade peptides?
Quality control (QC) data provided with every non-GMP grade peptide includes mass spectral (MS) and HPLC analyses determining composition and purity. Amino acid analysis (AAA) and peptide content are available upon request with an added cost for each test. We also provide storage and handling guidelines. Please see "What data is provided on the Certificate of Analysis (CoA)?" for a thorough description of all QC data which is available for both Non-GMP and cGMP peptides.
What is the advantage of capping the N and C termini of the peptide?
cGMP refers to the current Good Manufacturing Practice regulations enforced by the U. S. Food and Drug Administration (FDA) Acetylation or capping of the N-terminus will make a peptide appear more like native protein. It also helps to minimize amino peptidase degradation of the peptide. Amidation of the C terminus also helps to stabilize the peptide from carboxypeptidase degradation.
What does cGMP mean?
cGMP refers to the current Good Manufacturing Practice regulations enforced by the U. S. Food and Drug Administration (FDA) under the Federal Food, Drug, and Cosmetic Act. The regulations are in 21 CFR, parts 210 and 214.

The purpose of these regulations is to assure the identity, strength, quality, and purity of drug products by requiring that peptide manufacturers adequately control manufacturing operations. This includes excellent quality management systems, robust peptide supply chain management and risk mitigation, obtaining high-quality raw materials, establishing and validating operating procedures (SOPs), detecting and investigating product quality deviations, and maintaining validated quality control testing laboratories.
What purity percentage is required?
The required peptide purity percentage depends on your specific application. LexinPharma can synthesize peptides up to >98% purity. These are some general guidelines for peptide purity requirements:

Purity Peptide Application or Use
>80% Immunological applications and polyclonal antibody production
>90%* Structure-Activity Relationships (SAR) studies, bioassays
>95%* In vitro bioassays and in vivo biological activity tests, Ph I and early Ph II
>98% Pharma-cGMP material with set impurity specifications (late PH II - Ph III and commercial)
*For peptides utilized for Toxicology studies, it is recommended to have specifications for purity on the lower end, perhaps from 90 - 95%.
Do you provide cGMP-grade peptides?
cGMP peptide development and synthesis is the core of our business. LexinPharma provides large-scale cGMP peptide services with capacity up to 100 kilograms per project. Our comprehensive experience and capacity for cGMP-grade synthesis of new chemical entities (NCEs) or generic peptides (G-Rx) is unique in our industry. We partner from early preclinical studies through clinical evaluations and final commercial production.
What is the maximum peptide length you can synthesize?
We can synthesize peptides of lengths up to ~80 residues. Peptide lengths of 10 to 70 residues can usually be made by direct solid phase peptide synthesis (SPPS) chemical synthesis. Depending upon the scale and future requirements, combined strategies of using solution fragment condensation or even hybrid methods involving solid-phase couplings of protected peptide fragments may be developed specifically for each product. We also can utilize native chemical ligation (NCL) to make longer peptides and potentially mini-proteins using fully deprotected peptide fragments with an N-terminal Cys residue and another fragment containing a C-terminal thioester. While we have successfully manufactured peptides >80 residues, peptides greater than 80 amino acids are often more viably manufactured via a recombinant synthesis. On the other hand, peptides with 2-10 amino acids are often manufactured by solution or liquid phase peptide synthesis (LPPS). 
What causes delays in peptide delivery?
Peptide production is unpredictable because every peptide sequence is unique. Each has specific characteristics depending upon the residues present and the difficulties which they may present. Unfortunately, this can result in delays in delivery as we must fine-tune a successful process and to prevent or circumvent these problems, in order to deliver a peptide with the quality that you expect. The scientists at AmbioPharm have experience in many types of peptides and many different peptide synthesis strategies, but sometimes a particular sequence can still require fine-tuning and additional process development. Sharing your prior experience with a specific peptide in advance can help us avoid synthesis difficulties or delays. In addition, unforeseen supply chain delays can affect delivery times. We try to procure reagents to avoid these types of delays.

We provide weekly updates to all of our partners to keep them informed of our progress and any unanticipated delays which we may encounter.
What methods do you use to synthesize peptides?
We typically use Fmoc-tBu solid-phase peptide synthesis (SPPS), but we are also very skilled in the art of classical (solution phase or liquid phase peptide synthesis (LPPS)), and hybrid synthesis methods. Hybrid synthesis technology utilizes fully protected peptide fragments that are coupled onto resin-bound peptide fragments. For very long peptides, we may even consider native chemical ligation (NCL) approaches.
What is the best way to dissolve peptides?
The solubility of a given peptide varies depending on its amino acid sequence and modifications. LexinPharma purifies peptides by RP-HPLC using a water and acetonitrile gradient. Here are some general tips for dissolving peptides:

Sonication increases solubility.
10% acetic acid in the solvent will help dissolve basic peptides (Isoelectric Point, PI >7).
10% ammonium bicarbonate will help dissolve acidic peptides. (PI <7)
For very hydrophobic peptides which are sparingly soluble in aqueous solutions, water-miscible organic solvents (such as dimethyl sulfoxide (DMSO), isopropanol, methanol, and acetonitrile) should be used first. Once the peptides are completely dissolved, water may be gradually added until the desired concentration is obtained.
How should you store peptides?
We recommend that lyophilized peptides be stored long-term at -20°C. For peptides containing oxidation sensitive residues such as Cys, Met or Trp, we recommend storing under an inert atmosphere of N2 as well.
How is theoretical net peptide content calculated?
Theoretical net peptide content (calculated assuming that counterions are the only non-peptide components present in your peptide sample) can be estimated by dividing molecular weight (MW) of the peptide by a sum of this molecular weight and a number of trifluoroacetate (TFA) or acetate (AcO-) counterions that are required to neutralize the peptide multiplied by the molecular weight of the TFA counterion (MW= 114) and the AcO- counterion is (MW= 59).

For example, a synthetic peptide with a TFA salt and a MW= 1000 with a free N-terminal amino group and one Lys has theoretical net peptide content of 1000 / (1000 + (2 x 114)) = 1000/1228 =0.81 or 81%. This example peptide has 2 positions for the TFA salt to bind, hence the 2×114.

Theoretical net peptide content formula: (peptide MW)/(peptide MW + (#bound salts x salt MW))

Counterions are not the only potential non-peptide components in the peptide sample. It can also contain residual water, adsorbed solvents and traces of other substances. As a result, the actual net peptide content is usually determined by either elemental analysis (N2 content) or quantitative amino acid analysis.
What is net peptide content?
It is important to understand the difference between net peptide content and total (gross) peptide content. The lyophilized peptide powder shipped to you usually contains not only peptide, but also some other substances such as water, adsorbed solvents, counterions and salts. The total peptide content refers to the weight of this mixture (Gross Weight). Net peptide weight indicates the actual weight of only the peptide component of your sample. In most peptides, net peptide content is usually 60-90% of the total peptide weight (also called gross peptide weight) and is usually determined by elemental analysis, amino acid analysis (AAA) or UV spectrophotometry. In the case of peptides purified by reverse-phase High Performance Liquid Chromatography (RP-HPLC), the buffer used (typically TFA/H2O) contributes a salt to any free amine groups within the peptide. Salt forms can be exchanged by ion-exchange. The vast majority of peptide APIs are produced as acetate salts.

Net peptide content should not be confused with purity. Purity defines the percentage of the target peptide sequence in the peptide component of your sample. In concentration calculations, it is important to consider peptide content.
What peptide purification methods do you use?
Theoretical net peptide content (calculated assuming that counterions are the only non-peptide components present in your In most cases, we use preparative RP-HPLC for peptide purification. Occasionally, ion exchange chromatography (IEX) may be utilized as well. IEX is particularly useful in the case of pegylated peptides for removal of the free, unreacted PEG. Additionally, size exclusion (SEC) may be used to remove high-molecular-weight impurities and polymers such as with multi-disulfide peptides.
What is the typical purity percentage of custom peptides?
At LexinPharma, the purity percentage of custom peptides is set by our partner's specification. Typically, many researchers choose >95% by reverse-phase High Performance Liquid Chromatography (RP-HPLC or rHPLC). This means that 95% of the NET PEPTIDE content (but not the total peptide content, see "What is net peptide content?") of the lyophilized powder shipped to you is composed of your target peptide. The other 5% of the PEPTIDE material in your sample is usually composed of the deletion and/or addition sequences that sometimes co-elute with the target peptide. These deletion and addition sequences are generated during peptide synthesis due to the inefficiencies of coupling certain amino acids (typically β-branched residues (Ile, Val and Thr) or those with bulky protecting groups (Arg, Gln, Cys and Asn) are either missing or sometimes duplicated) in some of the synthesized molecules. Purity is usually determined by reverse-phase HPLC. We have the ability to meet any purity percentage which you may desire.
What data is provided on the Certificate of Analysis (CoA)?
For all non-GMP grade peptides, your CoA containing information such as amino acid sequence, modifications, purity, mass spectral data, and RP-HPLC (reversed-phase high-performance liquid chromatography) data will be provided. Additional data may be reported as well, such as amino acid analysis, peptide content, bioburden, endotoxin, water content, counter ion content, etc. if these have been requested in advance as quoted services in addition to our standard package.
For GMP services, the CoA is much more comprehensive. A typical CoA for a cGMP peptide will contain the following data and customer-supplied specifications, including aspect or appearance, molecular weight by MS, purity by RP-HPLC or UPLC, specified impurities, unspecified impurities, total impurities, peptide content by elemental analysis, water content (Karl Fischer), counterion content by ion chromatography, amino acid analysis, mass balance, bioburden and endotoxin results. Other services can be requested, such as MS-MS sequencing, NMR, impurity synthesis and spiking studies, method development and validation, process development and optimization, etc.
What is the typical lead time for non-GMP custom peptide synthesis?
Our typical lead time for custom peptide synthesis is about three to four weeks. The lead time may vary depending on the peptide length and complexity of synthesis. For cGMP synthesis, the lead times are considerably longer due to the QA and QC activities associated with this work.







 

 

 

 

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