Jerry Don Bauer
Posts: 135 Joined: Nov. 2012
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Quote (OgreMkV @ Nov. 19 2012,16:51) | Quote (Jerry Don Bauer @ Nov. 19 2012,16:37) | Quote (OgreMkV @ Nov. 19 2012,16:03) | Interesting that the part you didn't do was in a previous comment.
Do you want to calculate or measure the CSI of an organism or teach me to do so and us compare the results? |
You seem so ignorant in this subject (don't mean that as a slur just an observation as we are all ignorant in some subjects).
Why on earth would you want to calculate the CSI of an organism? Just a simple genome is lightyears over the 500 measly bits of information that make something CSI. Many proteins are as well...common sense should tell you that.
Look at the amount of information in the human genome:
Quote | The human genome contains the complete genetic information of the organism as DNA sequences stored in 23 chromosomes (22 autosomal chromosomes and one X or Y sex chromosome), structures that are organized from DNA and protein. A DNA molecule consists of two strands that form the iconic double-helix “twisted ladder”, whose backbone, which made of sugar and phosphate molecules, is connected by rungs of nitrogen-containing bases. DNA is composed of 4 different bases: Adenine (A), Thymine (T), Cytosine ©, and Guanine (G). These bases are always paired in such a way that Adenine connects to Thymine, and Cytosine connects to Guanine. These pairings produce 4 different base pair possibilities: A-T, T-A, G-C, and C-G. The haploid human genome (containing only 1 copy of each chromosome) consists of roughly 3 billion of these base pairs grouped into 23 chromosomes. A human being inherits two sets of genomes (one from each parent), and thus two sets of chromosomes, for a total of 46 chromosomes, representing the diploid genome, which contains about 6×10^9 base pairs.
Comparing the genome to computer data storage In order to represent a DNA sequence on a computer, we need to be able to represent all 4 base pair possibilities in a binary format (0 and 1). These 0 and 1 bits are usually grouped together to form a larger unit, with the smallest being a “byte” that represents 8 bits. We can denote each base pair using a minimum of 2 bits, which yields 4 different bit combinations (00, 01, 10, and 11). Each 2-bit combination would represent one DNA base pair. A single byte (or 8 bits) can represent 4 DNA base pairs. In order to represent the entire diploid human genome in terms of bytes, we can perform the following calculations:
6×10^9 base pairs/diploid genome x 1 byte/4 base pairs = 1.5×10^9 bytes or 1.5 Gigabytes, about 2 CDs worth of space! |
http://bitesizebio.com/article....-genome
is 1.5 Gigabytes more than 500 bits? Then why would we want to go any further than this as you already have the answer before you start.
ANY organism will be over 500 bits. |
OK. If I am ignorant on the subject, it's because every creationist I've ever talked to has been utterly unable to explain or teach the concept.
Since any organism is over 500 bits... let's try this.
5093413647 5962916509 4066005562 8540770698 8342922442 0194220209 7331543188 7173101712 5811761471 3261216342 2525310538 4613627960 9767559584 8786679179 7022618236 5134707276 1505272783 6020313600 8013081724 2444671310 5268821392 0881048845 1181910939 0754282725 9802869949 3733118584 7969279971 8150134026 7987778049 5178595812 2668421641 8163467125 0645780953 5684243267 1401437548 9391680033 7856973231 7145812146 8632651141 7699167635 0557559516 8611985974 7805273622 9849541633 3279510329 7149754142 7096458973 6301485923 1880042518 4930165865
Is this CSI? Yes/No Why? |
Ok, I wasn't being rude and you are not taking it that way...Good.
But are the numbers you posted CSI? No. Unless I'm missing something.....How are they even specified information at all?
Of course, I don't know what they represent but they just seem like a random listing of numbers to me at this point.
Have you read any of my or Dembski's writings using an archer to define specificity and calculating it?
It would seem germain to the subject should you want to learn that.
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