Coondensed chap1/2/2 Word Scramble
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Question | Answer |
RUNGS DNA LADDER SAME LENGTH/ ON OF ECAH TYPE BASE. | |
ADENINE + WITH THYMINE. 2 | HYDROGEN BONDS. |
GUANINE + CYTOSINE | 3 HYDROGEN BONDS. COMPLEMENTARY. |
THE QUANTITIES OF GC | AND AT ARE ALWAYS SAME. BUT THE RATIO OF AT TO GC VARIES FROM SPECIES. |
EACH COMPLETE TURN | OF THIS HELIX /ARE 10 BASE PAIRS. |
DNA PASS GENETIC INFO | FROM GENERATION TO GENERATION FROM CELL TO CELL. |
INFINITE SEQUENCE OF | DNA BASES ALONG THE MOLECULE. MAKES GENETIC DIVERSITY. |
DNA STABLE LIKE TABLE | PASS GEN WITHOUT CHANGE. |
2 STRANDS JOINED BY | HYDROGEN BONDS. |
CAN SEPARATE DURING | DNA REPLICATION AND PROTEIN SYNTHESIS. |
LARGE CARRY A LOT | OF GENETIC INFO. |
GENETIC INFO PROTECTED | BY CORRUPTION FROM CHEMICALS AND PHYSICAL FORCES. |
(HSW ) EVIDENCE DNA | IS HEREDITARY MATERIAL: |
DNA HALVED IN SPERM | CELLS QUANTITY. |
MICE : BACTERIUM THAT | CAUSED PNEUMONIA. 2 FORMS SAFE STRAIN R S STRAIN. |
MICE INJECTED WITH LIVING | R STRAIN AND DEAD S STRAIN. BOTH GROUPS REMAINED HEALTHY. |
BUT WHEN INJECTED | WITH BOTH THEY GOT PNEUMONIA. |
EXPERIMENT | WAS REPEATED. |
DNA PASSED FROM | ONE BACTERIUM TO ANOTHER –BY VIRUSES. |
ELECTRON MICROSCOPES | / IMAGES OF DNA GOING VIRUSE TO BACTERIAL CELLS. |
GENE SECTIONS OF DNA | THAT CONTAIN THE CODED INFO FOR MAKING POLYPEPTIDES./PROTEIN/ ENZYMES. |
GENE IS SEQUENCE OF DNA | BASES THAT DETERMINE THE POLYPEPTIDE. |
A POLYPEPTIDE IS A | SEQUENCES OF AMINO ACIDS. |
AS CODE HAS 3 BASES | CALLED TRIPLET CODE. 64 POS CODES ONLY 20 AMINO A. |
SOME AMINO HAVE MORE | THAN ONE CODE. |
IN EUKARYOTES . NON | CODING DNA . INTRON. |
FEATURES OF THE | TRIPLET CODE: |
AMINO ACID MORE | THAN ONE CODE DEGENERACY OF THE CODE. |
TRIPLET CODE READ IN | ONE DIRECTION ON DNA STRAND. |
THE START SEQUENCE | ALWAYS METHIONINE CAN BE REMOVED. |
3 TRIPLET CODES MARKS | END OF POLYPEPTIDE CHAIN .‘STOP CODES’. |
DNA AND CHROMOSOMES | PROKARYOTES CELL |
PROKARYOTES / DNA | MOLS SMALLER / CIRCULAR / NOT ASSOCIATED WITH PROTEIN /NO CHROMS. |
DNA LINEAR AND LARGER | /ASSOCIATED WITH PROTEINS/ FORM CHROMOSOMES. |
CHROMOSOME ONLY | VISIBLE WHEN CELL IS DIVIDING. |
2 THREADS HELD | BY CNETROMERE. |
THE DNA IN CHROMOSOMES | / HELD IN POSITION BY PROTEINS. |
2M DNA COILED | AND FOLDED. |
HELIX WOUND ROUND | PROTEINS TO FIX IT IN POSITION, |
A LOT OF DNA PACKED IN | SINGLE CHRMOSOME. |
THE CHROMOSOME | CONTAINS A SINGLE MOL IF DNA. |
SINGLE DNA MANY | GENES LENGTH. |
ALWAYS EQUAL/ CHROMOSOME | OCCUR IN PAIRS (HOMOLOGOUS PAIRS). |
HOMOLOGOUS CHROMOSOMES | SEXUALLY EGG AND SPERM, ONE CHROMOSOME EACH. |
MOTHERS CHROMOSOMES | IN EGG (MATERNAL CHROMS), FATHER (PATERNAL CHROMS.) |
IN MEIOSIS THE HALVING | OF NUMBER OF CHROMOSOMES ENSURE EACH DAUGHTER CELL HAS ONE CHROMOSOMES FORM EACH HOMOLOGOUS PAIR. |
SO EACH CELL RECEIVES ONE | SET OF INFO FOR EACH CHARACTERISTIC. |
HAPLOID CELL COMBINEDIPLOID | STATE AND HOMOLOGOUS CHROMOSOMES RESTORED. |
INDIVIDUAL INHERITS ONE | ALLELE FROM EACH PARENT , MAY BE SAME OR DIFF. |
WHEN ALLELE WILL CODE FOR | A DIFF POLYPEPTIDE. / DIFF SEQUENCE OF AMINO ACID /HENCE A DIFF PROTEIN. |
PROTEIN MAY NOT FUNCTION | / NOT COMPLEMENTARY/ENZYME NO FUNCTION. |
MITOSIS: PRODUCES 2 DAUGHTER | NUCLEI WITH THE SAME NUMBER OF CHROM AS PARENT. |
MEIOSIS: PRODUCES 4 DAUGHTER | NUCLEI /EACH WITH HALF THE NUMBER OF CHROM AS PARENT. |
MEIOSIS GOOD / MAINTAIN | CONSTANT NUMBER OF CHROMOSOMES. |
PROCESS OF | MEIOSIS 1 |
THE HOMOLOGOUS CHORMOSOMES | PAIR UP/ CHROMATIDS WRAP AROUND EACH OTHER. |
END HOMOLOGOUS PAIRS /SEPARATED /ONE | CHROMOSOMES FROM EACH PAIR GOING/ INTO ONE OF THE 2 DAUGHTER CELLS. |
THE SECOND MEIOTIC DIVISION / | THE CHROMATIDS MOVE APART. |
END 4 CELLS HAVE BEEN FORMED | . 23 CHROMS. |
MIOSIS ALLOWS /ORGANISM TO | ADAPT AND SURVIVE/ IN CHANGING WORLD. |
BRINGS ABOUT | GENETIC VARIATION BY: |
INDEPENDENT SEGREGATION OF | HOMOLOGOUS CHROMOSOMES, 2. RECOMBINATION OF HOMOLOGOUS CHROMOSOMES BY CROSSING OVER. |
LOCUS – THE POSITION OF A | GENES ON A CHROMOSOMES OR DNA MOL. |
ALLELE – ONE OF THE | DIFF FORMS OF A GENE. |
INDEPENDENT SEGREGATION | OF HOMOLOGOUS CHROMOSOMES |
EACH CHROMOSOME LINES | UP/RANDOM HOMOLOGOUS PARTNER. |
SO CHROMOSOMES THAT GOES | INTO THE DAUGHTER CELL AT MEIOSIS 1 IS RANDOM. |
MOVEMENT | DEPENDS/ON LINE UP. |
VARIETY FORM NEW | GENETIC COMBINATIONS : |
MEMBER OF A HOMOLOGOUS | PAIR OF CHROMOSOMES / SAME GENES / SAME CHARACTERISTICS |
THE ALLELES MAY DIFFER | (BROWN .BLUE EYE.). PRODUCED NEW GENETIC COMBINATIONS. |
STAGE 2 : AT END OF MEIOSIS 1 : | THE HOMOLOGOUS CHROMOSOMES HAVE SEGREGATED INTO 2 SEPARATE CELLS. |
STAGE 3: AT END OF MEIOSIS 2 – | THE CHROMOSOME HAVE SEGREGATED INTO CHROMATIDS PRODUCING 4 GAMETES THE GAMETES ARE |
THE GAMETES DIFFERNET | / DIFF CHRMOSOMES. |
RANDOM FUSING CREATE | VARIETY IN OFFSPRING. |
GENETIC RECOMBINATION | BY CROSS OVER: |
AFTER EACH CHROMOSOME | LINES UP ALONGSIDE ITS HOMOLOGOUS PARTNER. |
THE CHROMATIDS EACH PAIR | TWISTED AROUND ONE ANOTHER. |
TWISTING CREATES | TENSIONS /BREAKING POINT. |
BROKEN PORTIONS REJOIN | WITH THE CHROMATIDS OF /HOMOLOGOUS PARTNER. SAME PRORTIONS. |
NEW GENETIC | VARIETY. |
NO RECOMBINATION BY CROSS OVER 2 | CELLS PRODUCED . RECOMBINATION / 4 CELLS ARE PRODUCED. |
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ufuoma
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