Chromosome Disorders Part 5 Chromosome segregation in meiosis.. Thus, at the end of meiosis I, each daughter cell contains 23 chromosomes, with each chromosome consisting of two sister
Trang 1Chapter 063 Chromosome Disorders
(Part 5)
Chromosome segregation in meiosis A In meiosis I, each of the 23 pairs
of chromosomes finds its "partner," or homologue, and exchanges genetic material (recombines) with it At metaphase, each homologous pair aligns on the equatorial plate; at anaphase, each member of the homologous pair segregates from its partner Thus, at the end of meiosis I, each daughter cell contains 23
chromosomes, with each chromosome consisting of two sister chromatids B In
meiosis II, each chromosome aligns on the metaphase plate, and at anaphase, each
of the two sister chromatids divides from the other Thus, at the end of meiosis II, each daughter cell (e.g., the oocyte or spermatocyte) contains 23 chromosomes, with each chromosome consisting of one sister chromatid In mitosis, the chromosomes behave exactly as they do in meiosis II, except that somatically dividing cells contain 46 chromosomes, not the 23 that are present in the meiosis
II cell
Trang 2Chromosome segregation is more complicated in germ cell division, since the number of chromosomes must be reduced from 46 to 23 in the mature sperm and eggs This is accomplished by two rounds of division—meiosis I and meiosis
II (Fig 63-3) In meiosis I, homologous chromosomes pair and exchange genetic material, then align on the metaphase plate, and finally separate from one another Thus, by the end of meiosis I, only 23 of the original 46 chromosomes are represented in each of the two daughter cells Meiosis II quickly follows meiosis I and is essentially a "haploid mitosis," involving separation of the sister chromatids
in each of the 23 chromosomes
Although the fundamentals of meiosis are the same in males and females, there are important distinctions, particularly in the timing of meiotic divisions In males, meiosis begins with puberty and continues throughout the individual's lifetime In females, meiosis begins prenatally, with oocytes proceeding through the first stages of meiosis I but arresting at mid-prophase At the time of birth, the first meiotic division is suspended in oocytes Only after ovulation many years later do oocytes complete meiosis I and proceed to the metaphase stage of meiosis II; if fertilized, the oocyte then completes the second meiotic division Thus, in females, the first meiotic division takes at least 10–15 years and as many as 40–45 years to complete Maternal age–related increases in the incidence of trisomy are likely the consequence of this protracted process of cell division
Incidence and Types of Chromosome Abnormalities
Trang 3Errors in meiosis, or in early cleavage divisions, occur with extraordinary frequency At least 10–25% of all pregnancies, for example, involve chromosomally abnormal conceptions A large proportion of these terminate in the earliest stages of pregnancy, many of which go unrecognized Nevertheless, even among clinically recognized pregnancies, nearly 10% of fetuses are chromosomally unbalanced For the three types of clinically recognized pregnancies—spontaneous abortions, stillbirths, and livebirths—the frequencies of different chromosomal abnormalities are summarized in Table 63-2 The most common abnormalities are numerical, involving fetuses with additional (trisomy)
or missing (monosomy) chromosomes, or those with one (triploidy) or two
abnormalities are much less common, although several of the most important clinical chromosomal disorders involve structural rearrangements (see below)
Table 63-2 Frequency and Distribution of Chromosome Abnormalities
in Different Types of Clinically Recognizable Pregnancies
Frequency of Abnormality
Chromoso
me Abnormality
Spontane ous Abortion
Stillbir
th
Livebi rth
Probabil
Surviving to
Trang 4Term, %
Trisomy,
all
21
Sex
chromosome
monosomy (45,X)
Tetraploid
y
Trang 5abnormality
Total
abnormalities
By far the most common abnormality is trisomy, which is identified in
~25% of spontaneous abortions and 0.3% of newborns Trisomies for all chromosomes have now been identified in embryos or fetuses, but there is considerable variation in frequency for various chromosomes For example, trisomy 16 is extraordinarily common, accounting for about one-third of all trisomies in spontaneous abortions, whereas trisomies 1, 5, 11, and 19 have been identified less often Available evidence suggests two reasons for this variation: (1) some chromosomes (e.g., chromosome 16) are more likely to segregate abnormally or undergo nondisjunction during meiosis than are others; and (2) the potential for development varies widely among different trisomic conditions, with some being eliminated very early in gestation, others surviving to the time of clinical pregnancy recognition, and some (e.g., trisomies 13, 18, and 21 and sex chromosome trisomies) being compatible with survival to term.[newpage]