*boing*
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Oh no!!!! It was at number 5!!!!!
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Haha, it's in the top 5. ^^
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I know, but one more post and it wouldn't have been. :-)
I really don't know why I care haha |
I'm fussy. I see it in top 5, i make it top :-D
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Woo! *throws shoulder against thread* BUMPITY BUMP!!
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don't hurt your poor shoulder...
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Oh no!!!!!! Halfway down the page.
What about this message's Top-5ness? |
OMIGOSH!!!!!!!! Why are you NOT in the TOP five! humph...I'll fix that!
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Once again I had to bump it!!!!! *attaches thread to a string and pulls it to the top 5*
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*sigh* stop moving down, you! *rubber cements thread to top* there.
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*kicks the thread up a notch by blaring her ipod at full volume----PART-TAY!*
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yay party!!!!!!!
*superglues to top 5* |
Bumpeh
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Bumpeh.
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BUMPY!!!!!!!!!!!
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Le bomp :D
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.....
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!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!111111111111111111111111111111111111111111 1111111111111111111!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!1111111111111111111111111 111111111111111111111111!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!
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*Wanders in* PARRTTAYYYYY!!!
............ *realizes party is over* :P |
*restarts party*
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yay!!!! Party!!!
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*puts on loud music*
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*Does "the Robot"*
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GET BACK UP THERE!
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*pokes thread* is the party still going on?
*Dances anyway* |
Long inverted repeats (palindromes) are ubiquitous among prokaryotic and eukaryotic genomes. Earlier work has implicated both DNA breaks and short inverted repeats (IRs) in the formation of long palindromes in yeast and Tetrahymena by a proposed mechanism of intramolecular recombination. Here we report that long-palindromic linear plasmids are formed in Streptomyces following double strand DNA breakage by a nonrecombinational intra-strand annealing process that also involves IRs. By modification of palindrome-generating linear plasmids and development of a novel procedure that enables the sequencing of palindrome junctions, we show that long-palindrome formation occurs by unimolecular intra-strand annealing of IRs followed by 3′ extension of the resulting DNA fold-back. The consequent hairpin structures serve as templates for synthesis of duplex linear plasmids containing long palindromes. We suggest that this model for long-palindrome formation in Streptomyces may represent a generally applicable mechanism for generating DNA palindromes.
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Quote:
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Quote:
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Bumpeh
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hepmub
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Oh look, it isn't in the top 5
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it is now.
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bumperage
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Ecdysis is the molting of the cuticula in arthropods and related groups (Ecdysozoa). Since the cuticula of these animals is also the skeletal support (the exoskeleton) of the body and is inelastic, it is shed during growth and a new, larger covering is formed. The old, empty exoskeleton is called an exuvia (or "exuvium").
After molting, an arthropod is described as teneral; it is "fresh", pale and soft-bodied. Within one or two hours, the cuticle hardens and darkens following a tanning process similar to that of the tanning of leather. It is during this short phase that the animal grows, since growth is otherwise constrained by the rigidity of the exoskeleton. Ecdysis may also enable damaged tissue and missing limbs to be regenerated or substantially re-formed, although this may only be complete over a series of molts, the stump being a little larger with each molt until it is of normal, or near normal size again. |
argh *bumps again*
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Should go back to top 5!
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*makes thread float back to the top 5*
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Bumpeh
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"This message should ALWAYS be in top 5"
And yet it isn't!! =O |
It wasn't!!!!!! *bumps*
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i don't know if it is the top five, but once it gets happy from my chocolate ice cream it sure will be.
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woah time for a bump
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*sigh* Once again....
*BUMP* |
EEEEEEEEEL.
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emboiders prettily to make it extra interesting
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:hehe::laugh::-)
:-( |
*bumps*
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Nudges
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To the top 5 this goes
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