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D. C. Mikulecky |
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Professor Emeritus and Senior Fellow
Center
for the Study of Biological Complexity
Virginia Commonwealth
University |
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DESCRIBE A NEW FORM OF INFORMATION WHICH CAN BE
USEFUL IN THE STUDY OF BIOLOGICAL COMPLEXITY |
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RELATE
THIS FORM OF INFORMATION TO THE FORMALISM CALLED “RELATIONAL
BIOLOGY” |
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REVIEW THE APPLICATION OF THIS FORMALISM TO THE
DISTINCTION BETWEEN ORGANISMS AND SIMPLE MECHANISMS OR MACHINES |
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Complexity
is the property of a real world system that is manifest in the inability of
any one formalism being adequate to capture all its properties. It requires
that we find distinctly different ways of interacting with systems.
Distinctly different in |
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the
sense that when we make successful models, the formal systems needed to
describe each distinct aspect are NOT |
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derivable from each other |
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COMPLEX |
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NO LARGEST MODEL |
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WHOLE MORE THAN SUM OF PARTS |
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CAUSAL RELATIONS RICH AND INTERTWINED |
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GENERIC |
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ANALYTIC ¹ SYNTHETIC |
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NON-FRAGMENTABLE |
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NON-COMPUTABLE |
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REAL WORLD |
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SIMPLE |
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LARGEST MODEL |
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WHOLE IS SUM OF PARTS |
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CAUSAL RELATIONS DISTINCT |
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N0N-GENERIC |
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ANALYTIC = SYNTHETIC |
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FRAGMENTABLE |
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COMPUTABLE |
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FORMAL SYSTEM |
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THERE IS A DIFFERENCE BETWEEN SYNTACTIC AND
SEMANTIC INFORMATION |
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SYNTACTIC INFORMATION IS THE SUBJECT OF
“INFORMATION THEORY” IN SCIENCE AND ENGINEERING |
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SEMANTIC INFORMATION HAS A VERY DIFFERENT NATURE |
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ANSWERS AN INTERROGATIVE (?) |
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HAS NO LOGICAL STATUS |
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THE ANSWER IS USUALLY AN ADJECTIVE THAT COMES TO
MODIFY A NOUN |
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THE NOUN IS WHAT THE INFORMATION IS ABOUT…WHAT
IS REFERRED TO |
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WHY? |
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WHY X? |
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WHAT ENTAILS X? |
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SCIENCE HAS ASKED “HOW?” AND AS A RESULT HAD A
MECHANISTIC DEFINITION OF INFORMATION |
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THIS HAS INHERENT PROBLEMS SINCE IT CAN NOT DEAL
WITH SEMANTICS AND SELF-REFERENCE |
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WE ASK “WHY?” AND ARE IMMEDIATELY FORCED TO DEAL
WITH CAUSAL ENTAILMENT |
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THE RESULT IS PROFOUND IN THAT WE NOW DEAL WITH
THE ESSENCE OF THAT “SOMETHING” THAT MAKES THE WHOLE MORE THAN THE SUM OF
ITS PARTS-THE MISSING LINK IN REDUCTIONISM |
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WE NOW ARE FORCED TO DEAL WITH CLOSED LOOPS OF
CAUSALITY AND OTHER IMPREDICATIVITIES (SORRY RUSSEL) |
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MATERIAL: THE STUFF IT’S MADE OF |
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EFFICIENT: IT NEEDED A BUILDER |
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FORMAL: THERE WAS A BLUEPRINT |
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FINAL: IT HAS A PURPOSE |
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FOCUS ON THE ORGANIZATION |
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DEVELOP A SET OF FUNCTIONAL COMPONENTS WHICH
CAPTURE THAT ORGANIZATION |
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UTILIZE THE CAUSAL RELATIONS RESULTING FROM
ANSWERING “WHY?” |
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MUST POSSESS ENOUGH IDENTITY TO BE CONSIDERED A
“THING” |
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MUST BE ABLE TO ACQUIRE PROPERTIES FROM LARGER
SYSTEMS TO WHICH IT MAY BELONG |
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ITS FORMAL IMAGE IS A MAPPING f: A -----> B |
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THIS INTRODUCES A NEW KIND OF “DYNAMICS” :
RELATIONAL |
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BASED ON INPUT/OUTPUT REPRESENTATIONS OF SYSTEMS |
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MORE ABSTRACT |
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ALLOW CAUSALITY TO BE REPRESENTED |
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LEAD TO NEW INFORMATION |
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ARE BASED ON RECOGNITION THAT BUILDING UP AND
TEARING DOWN ARE PART OF THE LIFE PROCESS |
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INVOLVES MAPPINGS |
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METABOLISM IS f: A à B |
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A REPRESENTS METABOLITES WHICH CAN ALSO EXCHANGE
WITH THE ENVIRONMENT |
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B REPRESENTS THE RESULTS OF METABOLISM |
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f IS A MAPPING FROM A TO B |
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A IS THE MATERIAL CAUSE OF B (DOTTED ARROW) |
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f IS THE EFFICIENT CAUSE OF B |
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OTHER COMPONENTS FOR REPAIR AND REPLICATION COME
IN BECAUSE THESE COMPONENTS HAVE A FINITE LIFETIME: CATABOLISM AND
ANABOLISM OR “TURNOVER” |
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THE REPAIR OF f MUST BE ENTAILED |
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THE MATERIAL CAUSE OF F IS IN THE PRODUCTS OF
METABOLISM, B |
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THE EFFICIENT CAUSE OF f WE WILL CALL j |
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THE MATERIAL CAUSE OF j IS
f . (IT COMES FROM AMONG
THOSE THINGS THAT ENTAIL METABOLISM). |
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CALL THE EFFICIENT CAUSE OF j b |
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ARE COMPLEX SYSTEMS |
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ARE CLOSED TO EFFICIENT CAUSE |
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ARE AUTOPOIETIC UNITIES |
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NEWTON WAS ABLE TO CLOSE AN INFINITE REGRESSION
BY FORMULATING F = MA |
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OVER 300 YEARS OF SCIENCE ARE BUILT ON THIS |
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ROSEN’S CLOSURE OF THE RELATIONAL DIAGRAM
SHOWING THAT ORGAMNISMS DIFFER FROM MACHINES BY BEING CLOSED TO EFFICIENT
CAUSE IS AT LEAST AS IMPORTANT |
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Notes