Biology 311 Human Genetics

Biology 311 Human Genetics Fall 2006

Lecture 2: Chromosomes

Reading: Chapter 2 pp. 34-51

Outline:

1. Chromosome content

2. Chromosome structure

a. centromeres

b. origins

c. telomeres

3. Review of mitosis and meiosis

4. X-Y pairing in meiosis

5. Chromosome anatomy

a. size

b. centromere position

c. banding

d. new technologies

Lecture:

1.  Chromosome content

humans

·  diploid--2 copies of each gene

·  # chromosomes = 46

·  22 pairs of autosomes + 2 sex chromosomes XX or XY

life cycle (Fig. 2.2)

23, X 23, X or 23, Y 46, XY or 46, XX 23, X 23, X or 23, Y

egg (1n) + sperm (1n) à zygote (2n) à adult (2n)à egg (1n) or sperm (1n)

fertilization mitosis meiosis

2. Chromosome structure

What are chromosomes? See Fig. 2.3

Higher levels of packing/organization:

DNA + histonesà nucleosomes à chromatin fiber à chromosome

Histones: basic proteins that help condense DNA, highly conserved in eukaryotes

Core histones: H2A, H2B, H3, H4

Histone H1 binds spacer region

Parts of a chromosome

a. centromere

·  constriction on chromosome

·  essential for cell division

·  kinetochores form here

·  microtubules link kinetochores to spindle poles during cell division

·  specific DNA sequences form centromere

o  yeast ~110 bp long (Fig. 2.5)

o  mammals 100's of kilobases long, repetitive DNA

b. origins of replication

·  defined in yeast by a genetic assay

·  yeast origins are called "ARS" =autonomously replicating sequence element (Fig. 2.5)

·  in mammals, thought that many different types of sequences can function as origins of replication

c. telomeres

·  specialized structures at the end of chromosomes

·  several functions

o  stabilize ends of chromosomes

o  make sure ends of chromosomes are replicated

o  help position chromosomes in nucleus

·  long array of tandem DNA repeats (Fig. 2.5)

·  highly conserved sequence in evolution (humans=TTAGGG) at very end

·  enzyme telomerase (made of RNA and protein) reproduces the ends

o  RNA component of telomerase is primer (Fig. 2.6)

Two types of chromatin

Euchromatin: light staining R-bands that make up most of chromatin; exists in extended state during interphase; has genes that can be expressed.

Heterochromatin: dark staining regions (G-bands) that are condensed throughout the cell cycle; contains few expressed genes.

3. Mitosis and meiosis: review on your own

Know stages and events at each stage, especially regarding the genetic material. Know relevant terms.

What are the similarities and differences between mitosis and meiosis? (Table 2.2)

4. X-Y pairing in meiosis

·  females have two Xs that pair in meiosis

·  males have an X and a Y

·  how do these segregate properly?

o  region of 2.6 megabases of homology between X and Y="major pseudoautosomal region" that pairs during meiosis

o  X-over required in region to maintain pairing

5. Studying human chromosomes

·  human white blood cells used

·  grow in culture to obtain mitotic cells

·  use mitosis inhibitor (colcemid) that prevents completion of mitosis

·  preferable to have chromosomes in prometaphase (end of prophase, beginning of metaphase)

chromosomes are identified based on

o  size

o  position of centromeres

o  banding pattern

a. size

·  humans have 23 pairs of chromosomes

·  autosomes are arranged in pairs from largest (#1) to smallest (#22), followed by sex chromosomes

karyotype: chromosome makeup of an individual

human female: 46, XX

human male: 46, XY

b. centromere position

metacentric: chromosome has centromere in middle of chromosome

submetacentric: centromere in middle, but slightly offset

acrocentric: centromere is located closer to one end

telocentric: centromere is located at essentially the end of the chromosome

chromosome arms

p=petit, shorter arm of chromosome

q=queue, longer arm of chromosome

c. banding pattern

·  different stains give different banding patterns

·  most common

o  G-banding (Fig. 2.14), Giemsa stain binds DNA. Q-bands=dark, heterochromatin; R-bands=weak, euchromatin

o  R-banding gives essentially the reverse of G-banding pattern

o  Q-banding, quinacrine or other fluorescent stain gives same pattern as Giemsa

·  Location of bands relative to centromere (Fig. 2.13)

o  Bands: Q20 is closer to centromere than q21

o  Subbands: q21.1 is closer to centromere than q21.2

http://www.ncbi.nlm.nih.gov/

Can identify structural changes 1-10 megabases in size

d.  newer chromosome technologies (Fig. 2.16)

chromosome FISH: Fluorescence in situ hybridization

o  Used to identify specific DNA regions on a chromosome

o  Involves tagging a DNA probe and hybridizing to denatured chromosomal DNA on slide

chromosome "painting"= New technology that enables each chromosome to be visualized as a different color.

o  Mixed probe: Many DNA sequences from the same chromosome

o  Tag with different colored dyes

o  Important technology for identifying chromosomal defects (translocations, etc. Fig. 2.18) and rearrangements associated with certain cancers (Fig. 2.17)

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