Anabolism and Microbial Genetics pt 1

structural genes

genes in an operon that code for proteins

Calvin cycle location

occurs in chloroplasts in plants, cytoplasm in bacteria

bond between deoxynucleotides

phosphodiester bond

purines

adenine and guanine

genome

all genetic material in a cell or virus

polycistronic mRNA

all structural genes in 1 piece of mRNA

Calvin Cycle

anabolic pathway for fixing CO2 into carbohydrate (also called dark rxns)

pyrimidines

cytosine and thymine

DNA

deoxyribonucleic acid

3 components of DNA deoxynucleotide

deoxyribose sugar, nitrogenous base, phosphate group

gene

functional unit of genetic information

carboxylation phase

(often) occurs in carboxysomes, RubisCO attaches CO2 onto ribulose-1,5-bisphosphate --> 2 3-phosphoglycerate

3 processes of information flow

DNA replication, transcription, translation

Calvin cycle phases

carboxylation, reduction, regeneration

operon

cluster of genes controlled by common regulatory elements

Griffith's Transformation Experiment

helped establish DNA as the genetic material of a cell

bonds between the 2 DNA strands

hydrogen bonds (2 for A+T, 3 for G+C)

inducer

molecule that binds repressors so that they do NOT bind to the operator, allows transcription to proceed

regeneration phase

more ATP required, produces carbohydrates (some require multiple cycles)

DNA charge

negative, due to phosphate group

repressor

protein that blocks transcription

palindrome

recognition site of restriction enzymes, which open up the 2 strands

operator

regulatory region of DNA where repressor proteins bind

RubisCO

ribulose-1,5-bisphosphate carboxylase

phenotype

set of observable characteristics

genotype

specific set of genes carried in the genome

anabolism

synthesis of complex molecules from simpler ones with input of ATP and reducing power (NADPH)

gluconeogenesis

synthesis of glucose, similar steps of glycolysis but going backwards, required ATP and GTP

Streptococcus pneumoniae

used in Griffith's experiment, can take up DNA from environment, produces a capsule that supports virulence

reduction phase

uses input of ATP and reducing power (NADPH), 3-phosphoglycerate --> glyceraldehyde 3-phosphate

promoter

where RNA polymerase binds to begin transcription