You have to collect 20 DNA fragments to get a free bakugan
For rejoining DNA fragments, you can use DNA ligase enzyme, which catalyzes the formation of phosphodiester bonds between adjacent DNA fragments. This process is commonly used in molecular biology techniques like PCR and gene cloning.
Different percentages have different resolving powers. There is no one agarose percentage that is suitable for all sizes of DNA - you must chose the percentage best for resolving the sizes of DNA you are examining. If your agarose concentration is too dense for the size of your DNA fragments, the DNA will barely migrate through the gel. If the agarose concentration is too dilute for the size of your DNA, it will run straight through the gel without resolving into sharp bands. Generally speaking you use higher percentages if you want to resolve smaller DNA fragments and lower percentages if you want to resolve larger DNA fragments. Small DNA fragments need high percentages or else they'd run straight through the gel without being resolved into bands. Large DNA fragments need low percentages to permit them to migrate into the gel.
Agarose gel is used to separate DNA fragments based on size during electrophoresis. Agarose forms a matrix through which DNA molecules move under an electric field. This helps in visualizing and analyzing DNA samples by separating them according to their size.
Each band represents a piece of DNA. The extent to which they move through the gel has to do with the fragment's electrophoretic mobility. The lighter the molecule in general the faster it can move through the gel. Usually when performing a gel electrophoresis one would use markers. These markers would be of known molecular weight and would allow you to compare your DNA fragments and find approximate molecular weights.
Enzymes called restriction endonucleases, also known as restriction enzymes, are used to cut DNA into fragments at specific nucleotide sequences. These enzymes recognize and cut DNA at specific recognition sites, creating DNA fragments of different sizes. This process is commonly used in molecular biology for genetic engineering and DNA analysis.
the ones in gundalian invaders and mechtanium serge (with DNA codes)
Yes in the online game Bakugan Dimensions you use DNA codes (which i think is stupid i have old bakugan) to use that bakugan on the game
Yes there is. It is going to be called Bakugan Dimensions and will be released sometime around March 2010. To obtain Bakugan, the player needs to purchase Gunadlian Invaders Bakugan toys and use the DNA codes on them. Further information is unavaliable...
not that i know of you buy the bakugan in a store then use the code on it ingame on one of the big star machines scattered arround the game but be sure to buy a gundalian version of the bakugan because they are the only ones with the DNA code (to find it look for a black spot on the bakugan then hold your thumb on it the heat from your body will reveal it for a short time before vanishing again) also the code can only be used once from what ive heard
a Polyacrylamide gel
For rejoining DNA fragments, you can use DNA ligase enzyme, which catalyzes the formation of phosphodiester bonds between adjacent DNA fragments. This process is commonly used in molecular biology techniques like PCR and gene cloning.
just go to downtown and enter a store and click on the sales clerk
use your map and go to downtown the go right and carry on right then you will see 2 big bakugan balls on 2 pillars go in there
A genomic DNA library is the complete collection of cloned DNA fragments from an organism, representing its entire genome. These libraries are used for various molecular biology applications, such as gene cloning, sequencing, and functional analysis.
The theory on Bakugan.com Community is that they have an new project to work on, Redakai and that they're taking the funding from BD to use for that even though they KNOW Bakugan Dimensions is a hit and people are buying Bakugan because of it.
Different percentages have different resolving powers. There is no one agarose percentage that is suitable for all sizes of DNA - you must chose the percentage best for resolving the sizes of DNA you are examining. If your agarose concentration is too dense for the size of your DNA fragments, the DNA will barely migrate through the gel. If the agarose concentration is too dilute for the size of your DNA, it will run straight through the gel without resolving into sharp bands. Generally speaking you use higher percentages if you want to resolve smaller DNA fragments and lower percentages if you want to resolve larger DNA fragments. Small DNA fragments need high percentages or else they'd run straight through the gel without being resolved into bands. Large DNA fragments need low percentages to permit them to migrate into the gel.
If you don't know how first make an account then login after you've done activated your acount and done the parent account choose a file to play on choose your attribute,look and bakugan then your bakugan will tell you how to play like how to :use DNA codes;how to brawl ect remember it will only talk to you if you walk around and explore. sorry about the grammar and punctuation but i hope I've helped