Viral and Bacterial Chromosomes
Mitochondria and Chloroplast DNA
Polytene and Lampbrush Chromosomes
Organization of DNA in Eukaryotes
Eukaryotic Genomes, Repetitive DNA, and Functional Genes
100

The DNA conformation of most bacterial chromosomes, in which the DNA molecule lacks free ends

Circular DNA

100

The region in genes absent in mtDNA.

Introns


100

When polytene chromosomes are stained and viewed under a microscope, they display a highly specific and reproducible pattern consisting of these alternating features.

Bands and Interbands

100

These are positively charged proteins that package eukaryotic DNA into chromatin

Histones

100

This fraction of eukaryotic DNA, which separates as an additional peak during density gradient centrifugation, consists of highly repetitive tandem arrays located in heterochromatic regions.

Satellite DNA

200

These bacterial DNA-binding proteins facilitate folding and bending of bacterial DNA

HU and H-NS proteins

200

The origin of both mtDNA and cpDNA.

Maternal Cytoplasm

200

Polytene chromosomes are visible during this specific, non-dividing stage of the cell cycle.

Interphase

200

This is responsible for the stacking of nucleosomes into solenoids.

H1 Histone

200

These evolutionary remnants of duplicated genes are noncoding and typically untranscribed due to disabling mutations like insertions and deletions.

Pseudogenes

300

The compact DNA structure formed when underwound bacterial DNA twists upon itself

Supercoiling

300

This foundational evolutionary theory explains why cpDNA resembles cyanobacteria and why both organelles have their own independent genomes.

Endosymbiotic Theory

300

Localized uncoiled regions on polytene chromosomes that indicate active high-level gene expression are called puffs, or by this alternative specific term named after their discoverer.

Balbiani rings

300

The interest of chromatin remodelling

Histone Tails

300

This specific variant histone replaces normal H3 in centromeric heterochromatin and is crucial for assembling the kinetochore.

 CENP-A

400

The enzyme that cuts one or both strands, changes the degree of DNA unwinding, and reseals the DNA strands

Topoisomerase

400

mtDNA Replication is dependent on enzymes encoded from this.

Nuclear DNA

400

These specific visual features of polytene chromosomes represent the tightly wound, structurally permanent regions where genes are mostly inactive.

Dark bands 

400

This influences adjacent euchromatin to become inert from translocated heterochromatin.

Position Effect

400

Making up more than 5% of the human genome, this prominent family of SINEs is 200 to 300 base pairs long and can actively transpose within the genome.

Alu Family
500

The type of genetic material present in Tobacco mosaic virus

RNA

500

Chloroplast DNA shares a striking structural similarity to the DNA of this specific type of bacteria.

Cyanobacteria

500

Polytene chromosomes are easily found and studied in the salivary glands of larvae belonging to this insect order.

Diptera

500

This is responsible for acetylation

Histone Acetyltransferase

500

In humans, the most common type of microsatellite or Short Tandem Repeat (STR) consists of repeating units of this specific dinucleotide.

(CA)n