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Benzylaminopurine (6BA) 98.7% – Cytokinin B PGR Kits

$4.00$425.00 $4.00$350.00

Benzylaminopurine is the most popular Cytokinin class plant growth regulator (PGR) hormone in the world. Its uses are diverse and widely documented. Common uses include branching stimulation, flower boosting and increased fruit set. One example is when you “pinch” the apical meristem (main shoot) of a seedling it forces it to drive its growth outwards via the leaf node auxiliary/lateral meristems. While the plant has no choice but do this, its actually this process where the plant produces cytokinins in response to the damage, and this over-balancing of the auxin/cytokinin/gibberellin chemical equation then signals the lateral meristems to actually grow. Typically at this stage of growth the young plant is in auxin-driven competitive mode expecting to need to grow straight up to ensure reaching sunlight (imagine a field of weeds). On humans there is an obscure history in regrowing hair.

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Product Description

Benzylaminopurine Research Data Links:
EPA - Google - MSDS - PubChem - PubMed - ToxNet - WikipediaYoutube

We work extra hard to provide you with precise specifications and broad usage data. New PPM tables are generated for each batch of each chem. This is important because the weight per (scoop) volume and and exact purity differs between every batch. All chemicals have the scoop weight & purity printed on the labels. The printed scoop weight is based on the white scoop size (1/32 tsp.). As an exclusive service, buyers may request custom range PPM tables. Due to the lengths and ongoing growth of the chem guide's, printed instructions aren't generally included.

INCLUDED IN EVERY PGR ORDER: One mini white measure scooping spoon and one mini chemical mixing spatula.

CURRENT PGR SPECIALS: -U.S. PGR orders ship free via First Class by entering coupon code "PGR", or if you pay the standard shipping it will ship via Priority Mail. -All PGR orders over $25 get another random free 1 gram PGR sample.

Unlock Full Throttle Growth Boosting!
All plants regulate their growth, development, and behavior by Plant Growth Regulator (PGR) Hormones, which in most cases move through the plant from one part to another. Fertilizer provides fuel for plants to grow, but doesn't force them to do so. Hormonal signaling dictates the the plant to do so, and the fertilizer is like the 'gasoline' fuel (energy) to carry out such signaling.Think of it as fertilizer is the fuel, where hormones are the gas pedal (or brake pedal) of various plant growth characteristics.

By treating plants with PGR's you can not only alter the ways they grow, you can boost their growth at the same time. The reason is because it requires plant energy to synthecize these signaling phytohormone chemicals. This requires energies that during treatment spares the plants from needing to 'waste', meaning more of the energies the plants have access to are spent on the actual growth that the PGR's are signalling the plants to do.

6-BENZYLAMINOPURINE USAGE GUIDE:

Guide Last Updated: 3-31-14                (under construction)

Cytokinins Overview:
Cytokinins are a class of plant growth phytohormones that promote cell division, or cytokinesis, in plant roots and shoots. The growth booster effects are involved primarily in cell growth and differentiation, but also affect apical dominance, axillary bud growth, and leaf senescence. Cytokinins retard the aging of some plant organs by inhibiting protein breakdown, by stimulating RNA and protein synthesis, and by mobilizing nutrients from surrounding tissues. If leaves removed from a plant are dipped in a cytokinin solution, they stay green much longer than otherwise. Cytokinins also slow the deterioration of leaves on intact plants. Because of this anti–aging effect, florists use cytokinin sprays to keep cut flowers fresh.

6-Benzylaminopurine, benzyl adenine or BAP is a first-generation synthetic cytokinin Plant Growth Regulator (PGR) that elicits plant growth and development responses, setting blossoms and stimulating fruit richness by stimulating cell division. It is an inhibitor of respiratory kinase in plants, and increases post-harvest life of green vegetables (by slowing senescence). Influence of cytokinin as 6-benzylaminopurine (BAP) in combination with other methods on post-harvest green color retention on broccoli heads and asparagus spears, showed positive results for quality retention. Treatment with 10 and 15 ppm BAP can be used to extend shelf life of fresh-cut broccoli florets and shredded cabbage during storage at 6±1°C at commercial level.

Cytokinin Functions:
>Stimulation of cell division and related DNA synthesis.
>Stimulation of inhibition of cell enlargement in leaves.
>Promotion of leaf bud formation and elimination of the related polarity, as well as the mutual inhibition of longitudinal growth.
>Stimulates morphogenesis (shoot initiation/bud formation) in tissue culture.
>Stimulates the growth of lateral buds-release of apical dominance.
>Stimulates leaf expansion resulting from cell enlargement.
>May enhance stomatal opening in some species.
>Promotes the conversion of etioplasts into chloroplasts via stimulation of chlorophyll synthesis.
>Interruption of dormancy.
>Increase in respiration and RNA and DNA synthesis.
>Increase size and produce larger fruit.
>Inhibition of protein degradation, rejuvenation of the leaves
>Promotion of germination.
>Promotes the conversion of etioplasts into chloroplasts via stimulation of chlorophyll synthesis.
>May enhance stomatal opening in some species.
>Stimulates morphogenesis (shoot initiation/bud formation) in tissue culture.
NOTE: Responses will vary depending on the type of cytokinin, methods & amounts used, and the plant species involved.

Commercial Applications:
>6BA is used commercially to grow apples, pistachios, strawberries, melons and many other edibles in California.
>Used as a color preserver in vegetables such as asparagus, broccoli, brussels sprouts, lettuce, and celery for extended color retention during harvesting, shipping and storage.

How To Dissolve 6-Benzylaminopurine:

DISSOLVES WELL WITH SODIUM HYDROXIDE.

6-Benzylaminopurine  vs. Various Solvents – Dissolve Results Chart:

dissolve
Another Mass Spectrum exclusive. In this initial release, basic solubility was the main objective. Full solution boils (i.e. 'Microwave Boil Trick'), or overnight soaks weren't generally attempted. Partial dissolve results data was included as more rigorous pursuits may yield you results. "Melt" results were exclusive to Triacontanol. In each case the melted substance reverted to solid form upon cooling, but its seems possible that applying a secondary solvent to the solution in its hot melted state may enable post-cool suspension in the solution thereby enabling plant bioavailability. "Reaction" means the substance bubbled inside the solvent or similar results (molecular breakdown). This was most common with VOC solvents with heat applied. When heating substances keep an eye for reactions in case we didn't notice them. Beyond all that, results may vary depending on substance batch or other variables. Stay tuned for future updates with more substances, solvents and more thorough methods...

Dissolving Benzylaminopurine With NAOH (Lye):
WARNING: Caustic Soda is highly corrosive (pH: 14). It’s the most common active ingredient in common liquid drain cleaner solutions. MSB offers it in dry powdery form and it readily dissolves in water. Follow all safety guidelines when working with this substance.

Simply mix the 2 ingredients in a glass mixing container. Allow 30-60 minutes for the 6BA to dissolve, and as needed slowly add in more Lye until the 6BA dissolves completely. Now mix with water as desired. It’s recommended that you test the pH of your solution in case it might be unbalanced for your intended uses.

Dissolving Benzylaminopurine With Alcohol:
6BA can be dissolved in high purity Isopropanol (Isopropyl Rubbing Alcohol), and a few drops of baby shampoo, in a suitable container and then heating it to about 140°F (110-150°F). Heating above 170°F will cause the alcohol to rapidly evaporate. Some have reported that 70% Isopropanol is more effective than even 99% methanol alcohol.

Dissolving Using Lanolin Paste:
The following is a description of 6BA Lanolin Paste used to cause extreme San Pedro cactus “branching” (which basically never occurs, and surely not like this):
“Mix 2% BAP Powder to 98% Lanolin over a gentle heat to form a gel. To mix the two, measure your amounts out and first put the lanolin into a thin glass cup held at an angle, then sprinkle the appropriate amount of BAP onto the lanolin and swirl with a toothpick (to mix it well). Then take a lighter and hold the flame to the glass under the gel in a ‘back and forth’ type of motion, you want to warm it so it mixes up better but not cook it or melt it. I would describe it as *gently* heating. After that, just dip a toothpick/thumbtack into the gel and scratch it into an areole in a visible amount and expect a branch within 1-6 weeks. Quickest results will be obtained when applying the BAP to new, soft growth as opposed to old corky growth.”
-Source Photo (must see)

How To Dilute & Mix 6-Benzylaminopurine:

Diluting Benzylaminopurine:
IMPORTANT: When mixing Benzylaminopurine with water do not pour the water into the Benzylaminopurine. Instead pour the 6BA into the water while slowly while mixing it. Your solution concentation will depend on what Parts-Per-Million (PPM) you intend use. As with all PGR’s, please take a look at the research and information that is available. The easiest way to do this is, in your favorite search engine enter “PGR name” “intended plant”. Additional modifiers such as “PPM” or “rooting” may help. Discussion forums often contain advanced details of specific results.

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Benzylaminopurine (6BA) Dilution Table – Mass Spectrum Botanicals

6-Benzylaminopurine (6BAP) Quad-Scoop PPM Table6-Benzylaminopurine (6BAP) - How to dissolve in Lanolin Paste - Only at Mass Spectrum Botanicals

Synergists:
Fulvic Acid
Indole Acetic Acid (IAA)
Sodium Nitrophenolate
Zinc
NOTE: Treating entire plants with Gibberellic Acid (GA3) can be dangerous, especially via foliar application, and especially during vegetative growth phases. There are safe dose ranges for virtually plants, but overdosing can also eventually cause extreme plant tissue stretching. This can be as extreme as the plant literally falling over under it’s own weight. Mixing gibberellins with both auxins (IAA) and cytokinins (6BA) gives the treatment a synergizing balance and can exceed these limitations (i.e. a hardy ‘stretched out’ plant that is dense and full).

How To Use 6-Benzylaminopurine:

Example Uses:
150 to 300 PPM: increase in flower size.
300 to 400 PPM: stem elongation reduction.
1000 to 3000 PPM: will cause plant to branch out.

To force flowering in Ginseng (Panax ginseng): 1PPM 6BA + 1PPM GA3.1

Using 6-Benzylaminopurine To Stimulate Seed Germination:

6-Benzylaminopurine Seed Germination Enhancement ExamplesNOTICE: While 6BA can be used with certain species to significantly stimulate seed germination, it is NOT a true universal seed germination stimulant (such as Potassium Nitrate, Gibberellic Acid & Thiourea). It is more prone to causing germination inhibition when used with improper species, or at the wrong dosage ranges.

Converting Benzylaminopurine (6BA) Between PPM / g/Mol / % / Mol/L / g/L / mg/L / mMol / µMol:

6-Benzylaminopurine Precision Conversion Table

Auxin Activated:
Auxin is the PGR hormone produced by the plant that governs all growing activity within the plant. Cytokinins act in concert with auxin and act either synergistically or antagonistically to control several significant developmental processes, such as the formation and maintenance of meristem. The ratio of auxin to cytokinin plays an important role in the effect of cytokinin on plant growth. More cytokinin induces growth of shoot buds, while more auxin induces root formation. [Cytokinin alone has no effect on parenchyma cells. When cultured with auxin but no cytokinin, they grow large but do not divide. When cytokinin is added, the cells expand and differentiate. When cytokinin and auxin are present in equal levels, the parenchyma cells form an undifferentiated callus.] The rooting auxins (IBA & NAA) can ‘destroy’ via mutant certain plant types if applied to the entire plant via foliar spraying. Indole Acetic Acid (IAA) is the best auxin for use in cytokinin activation, and can be safely sprayed onto plants in this context.
Read more about Auxin:Cytokinin Ratios: 1 2 3 4 5 6 7 8 9

Foliar Spray Application:
Simply pour it (and any other intended chems) into a spray bottle and the spray the plant(s) until the solution is dripping from the plant.

Plant Tissue Culture:
Stock solution of BAP: 1,000 ppm
1. Weigh 0. 2 g BAP and dissolve well with some drops of NaOH 1N.
Add 200 ml distilled water.
2. Keep in a conveniently labeled vial at 0°C.
BAP may be sterilized together with the culture medium; however, the loss of some activity is also possible.
One ml of stock solution (1,000 ppm) contains 1 mg of BAP

6-Benzylaminopurine Specifications:

Purity:
This listing is for 98% spec 6BA. The “spec purity” means that the product will be at least 98%. The current in-stock batch is 98.7%, but bulk back-orders might be of lesser or even greater purity.

Packaging:
1-10 Gram amounts are currently packed in poly (clear) ziplock bags.
25+ Gram amounts come in foil mylar ziplock bags.
.5-1 KG bulk amounts come in sealed foil mylar bags.

Toxicity to Animals:
Acute oral toxicity (LD50): 1300 mg/kg [Mouse]. Acute dermal toxicity (LD50): >5000 mg/kg [Mouse].

Environmental Fate and Exposure Potential:
Benzyladenine’s production may result in its release to the environment through various waste streams; its use as a plant growth regulator will result in its direct release to the environment. If released to air, a vapor pressure of 1.79X10-11 mm Hg at 20 deg C indicates benzyladenine will exist solely in the particulate phase in the atmosphere. Particulate-phase benzyladenine will be removed from the atmosphere by wet or dry deposition. Benzyladenine does contain chromophores that absorb at wavelengths >290 nm and therefore may be susceptible to direct photolysis by sunlight. If released to soil, benzyladenine is expected to have moderate mobility based upon an estimated Koc of 170. Volatilization from moist soil surfaces is not expected to be an important fate process based upon an estimated Henry’s Law constant of 8.84X10-14 atm-cu m/mole. Benzyladenine is not expected to volatilize from dry soil surfaces based upon its vapor pressure. Sixteen days after application to soil at 22 deg C, benzyladenine had degraded to 5.3% (sandy loam) and 7.85% (clay loam soil) of the applied dose. Other studies have indicated half-lives of 7 to 9 weeks. If released into water, benzyladenine is not expected to adsorb to suspended solids and sediment based upon the estimated Koc. Volatilization from water surfaces is not expected to be an important fate process based upon this compound’s estimated Henry’s Law constant. An estimated BCF of 3.2 suggests the potential for bioconcentration in aquatic organisms is low. Hydrolysis is not expected to be an important environmental fate process since this compound lacks functional groups that hydrolyze under environmental conditions. Occupational exposure to benzyladenine may occur through inhalation of dust and dermal contact with this compound at workplaces where benzyladenine is produced or used. from HSDB

Exposure Standards and Regulations:
The biochemical plant regulator 6-benzyladenine (6-BA) is exempt from the requirement of a tolerance in or on apple and pear when applied at a rate of less than or equal to 182 grams of active ingredient per acre per season, and in or on pistachio when applied at a rate of less than or equal to 60 grams of active ingredient per acre per season. from HSDB

Chemistry Specifications:
IUPAC Name: N-benzyl-7H-purin-6-amine
InChI: InChI=1S/C12H11N5/c1-2-4-9(5-3-1)6-13-11-10-12(15-7-14-10)17-8-16-11/h1-
5,7-8H,6H2,(H2,13,14,15,16,17)
InChIKey: NWBJYWHLCVSVIJ-UHFFFAOYSA-N
Canonical SMILES : C1=CC=C(C=C1)CNC2=NC=NC3=C2NC=N3
Chemical Formula: C12H11N5
CAS#: 1214-39-7
Molecular Weight: 225.26 g/mole
Melting Point: 237°C (458.6°F)
Appearance: White to off-white solid

Synonyms:
“1H-Purin-6-amine, N-(phenylmethyl)-”
“6-Benzylaminopurine”
“Adenine, N-benzyl-”
“Benzyladenine”
“N-(Phenylmethyl)-1H-purin-6-amine”
“N-benzyladenine, monopotassium salt”
“N-benzyladenine, monosodium salt”
“N6-Benzyladenine”
((2r,3s,4r,5r)-5-(4-amino-2-oxopyrimidin-1(2h)-yl)-3,4-dihydroxytetrahydrofuran-2-yl)methyltriphosph
1214-39-7
124786-41-0
1H-PURIN-6-AMINE, N-(PHENYLMETHYL)-
3458-19-3
6-(Benzylamino)purine
6-(n-benzyl)aminopurine
6-(N-Benzylamino)purine
6-BA
6-BA cpd
6-BAP
6-Benzyl adenine
6-Benzyl aminopurine
6-Benzyladenine
6-benzyladenine 6-benzylaminopurine
6-Benzylaminopurine
6-Benzylaminopurine (N6-Benzuladenine)
6-Benzylaminopurine; Benzyl Kinetin
9H-Purin-6-amine, N-(phenylmethyl)-
ABG 3034
Adenine, N(sup 6)-benzyl-
Adenine, N-benzyl-
Adenine, N-benzyl- (8CI)
Aminopurine, 6-benzyl
BA (Auxiliary Booster)
BA (Growth stimulant)
BA (growth stimulator)
BAP (plant biotechnology)
BAP (cytokinin)
BAP (growth stimulant)
benzyl(purin-6-yl)amine
benzyl-(7h-purin-6-yl)-amine
BENZYLADENINE
Benzylaminopurine
benzylaminopurine, 6-
C11263
Caswell No. 081EE
CCRIS 4351
Cytokinin B
EINECS 214-927-5
EPA Pesticide Chemical Code 116901
n(6)-benzyladenine
N(6)-Benzylaminopurine
N(sup 6)-(Benzylamino)purine
N(sup 6)-Benzyladenine
N-(Phenylmethyl)-1h-purin-6-amine
N-(Phenylmethyl)-1H-purin-6-amine [United States Environmental Protection Agency/ Prevention
N-6-BAP
N-6-Benzyladenine
N-benzyl-1H-purin-6-amine
N-Benzyl-9H-purin-6-amine; N6-Benzyladenine; Aminopurine, 6-benzyl
N-benzyladenine
N6 -Benzyladenine
N6-BENZYL ADENINE
N6-Benzyladenine
n6-benzylaminopurine cannabis
NSC 40818
NSC40818
PC Code 116801
PC Code 116901
Prestwick_414
Pro-Shear
S Code 763
SD 4901
SQ 4609
synthetic 6-substituted aminopurine cytokinin.
USEPA/OPP Pesticide Code: 116901[National Pesticide Information Retrieval System's USEPA/OPP Chemical Ingredients Database on Benzyladenine (1214-39-7).
Verdan senescence inhibitor
N(6)-Benzylaminopurine
BA (Growth stimulant)
BAP (growth stimulant)
Pro-Shear
Verdan senescence inhibitor
6-Benzyl adenine
6-BAP
1H-PURIN-6-AMINE, N-(PHENYLMETHYL)-
N-benzyl-7H-purin-6-amine
N-Benzyl-9H-purin-6-amine
CHEBI:29022
Aminopurine, 6-benzyl
Caswell No. 081EE
N(sup 6)-Benzyladenine
Benzyl(purin-6-yl)amine
6-(N-Benzylamino)purine
N-(Phenylmethyl)-1H-purin-6-amine
SD 4901
SQ 4609
Adenine, N(sup 6)-benzyl-
6-BA
CCRIS 4351
N(sup 6)-(Benzylamino)purine
ABG 3034
N-6-Benzyladenine
EINECS 214-927-5
n(6)-benzyladenine
n6-benzylaminopurine
NSC 40818
EPA Pesticide Chemical Code 116901
benzylaminopurine, 6-
ST020598
6-(n-benzyl)aminopurine
CAS-1214-39-7
N-benzyl-1H-purin-6-amine
benzyl-(7h-purin-6-yl)-amine
6-benzyladenine 6-benzylaminopurine
6-Benzylaminopurine hydrochloride
SMR000140130
162714-86-5
Benzyl adenine
Benzyl Aminopurine
BAP (cytokinin)
N6 -Benzyladenine
((2r,3s,4r,5r)-5-(4-amino-2-oxopyrimidin-1(2h)-yl)-3,4-dihydroxytetrahydrofuran-2-yl)methyltriphosph
Prestwick_414
benzylpurin-6-ylamine
PubChem9266
Adenine, N6-benzyl-
BA (growth stimulator)
Prestwick0_000189
Prestwick1_000189
Prestwick2_000189
Prestwick3_000189
SureCN35562
SureCN37357
SureCN37358
CBKinase1_000521
CBKinase1_012921
N(6)-(benzylamino)purine
AC1Q28ZG
6-Benzylaminopurine solution
TimTec1_001722
DSSTox_CID_12630
DSSTox_RID_79014
DSSTox_GSID_32630
Oprea1_747691
Oprea1_785203
Oprea1_830563
BSPBio_000117
CBDivE_001815
MLS000532693
MLS001074298
13151_ALDRICH
B3274_SIGMA
B3408_SIGMA
B5920_SIGMA
SPBio_002038
AC1L1X11
AC1Q290J
BPBio1_000129
CHEMBL228862
STOCK6S-81520
13151_FLUKA
NWBJYWHLCVSVIJ-UHFFFAOYSA-
MolPort-000-159-363
MolPort-001-813-199
HMS1538O06
HMS1568F19
HMS1667I06
HMS2095F19
HMS2234B24
CPD-4604
NSC40818
6-[(phenylmethyl)amino]-9H-purine
6-Benzylaminopurine; Benzyl Kinetin
N-(phenylmethyl)-7H-purin-6-amine
Tox21_301307
ANW-17632
CCG-55533
NSC-40818
STK858495
ZINC00043479
AKOS002304241
AKOS005257767
9H-Purin-6-amine, N-(phenylmethyl)-
AC-5488
AG-C-17845
AG-E-12574
NCGC00016571-01
NCGC00016571-02
NCGC00016571-03
NCGC00016571-04
NCGC00016571-05
NCGC00255357-01
AK-47425
KB-44686
LS-15063
TL8000571
B1088
EN300-40176
B-1000
C11263
I01-0020
SR-01000644553-1
T6330145
BRD-K62929068-001-05-8
I14-15079
2B76FFBD-3C3A-4349-9047-E5B8945B54A7
1H-Purin-6-amine,N-(phenylmethyl)-, monohydrochloride (9CI)
N-Benzyl-9H-purin-6-amine; N6-Benzyladenine; Aminopurine, 6-benzyl
124786-41-0
3458-19-3
InChI=1/C12H11N5/c1-2-4-9(5-3-1)6-13-11-10-12(15-7-14-10)17-8-16-11/h1-5,7-8H,6H2,(H2,13,14,15,16,17)
ZINC00043479

 

Additional Information

Quantity

1 Gram, 5 Grams, 10 Grams, 25 Grams, 50 Grams, 100 Grams, 500 Grams, 1 KG, 25 Grams Dry Sodium Hydroxide (Lye), 20 mL Lanolin Paste (untreated), Basic PGR Toolkit, Deluxe PGR Toolkit