In humans, males
and females are represented by different sex chromosomes
• Males have one (1) X
chromosome and one Y chromosome in the nucleus of their cells.
• Females have two (2)
X chromosomes in the nucleus of their cells.
The expression pattern of the trait
differs in males and female, is dependent on
whether the trait is dominant or recessive.
X-linked
traits are traits where the genes for the trait is found on
the X chromosome, while a
Y-linked
traits is when the gene for the trait is found on
the Y chromosome.
Sex-influenced
trait in a diploid organism have expression which are affected by an
individual’s biological sex and occurs at a higher frequency in one
sex over the other
Sex-limited
traits in a diploid organism have expression that are limited to just one
biological sex
Example.
Problem Exercise :
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
a.) determine his genotype.
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
c.) Is it possible that each daughter could have been a carrier?
Write your answers in the comments.
Hernandez, Ann Claudette B.
ReplyDeleteShunem
Answers:
a.) His genotype is XhY.
b.) The genotype of Prince Albert is XHY. The genotype of Queen Vixtoria is XhXH.
c.) 25% of their daughters could possibly be a carrier.
Hernandez, Ann Claudette B.
ReplyDeleteShunem
a.) His genotype is XhY.
b.) The genotype of Prince Albert is XHY. The genotype of Queen Victoria is XhXH.
c.) 25% of their daughters could be a carrier.
Ocampo, Angel Jullian F.
ReplyDeleteSmyrna
a. The genotype of Prince Leopold is a 50% chance of getting hemophilia and a 50% chance of not. X(h)Y.
b. Prince Albert has a X(H)Y genotype while his mother has a X(h)X(h) genotype.
c. Yes, the daughters have been a carrier because they inherited the altered gene from their mother who is a carrier of hemophilia. But, they will not have hemophilia because females needs two copies of recessive alleles.
C
ReplyDeleteFerrer, Evelyn
ReplyDeleteSHECHEM
C.
I dontknow
ReplyDeleteGameng, Cielbee R.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Gameng, Cielbee R.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Leonard B.Robiños
ReplyDelete12 Shunem
a)The genotype of Prince Leopold is XhY.
b)The genotype of Prince Albert is XhXH While Queen Victoria XHY.
c)yes
.
Julianne Leighne D. Molero
ReplyDelete12 - Shunem
a)XhY
b)XhXH AND XHY
c)YES IT IS
Antiquera, Lexanne
ReplyDeleteSamaria
a.) X(h)Y
b.) X(H)X(h)= Queen Victoria
X(H)Y= Prince Albert
c.) Yes, there is a 25% possibility that she is a carrier.
David, Timothy Paul A.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Fennis,Nabby Gail
ReplyDeleteShunem
a) X(h)Y
b) X(H)X(h)= Queen Victoria
X(H)Y= Prince Albert
c) Yes, there is still a 25% possibility that she is a carrier.
Ramos,Monica
ReplyDeleteSamaria
a.) hemophiliac X(h)Y
b.)non-hemophilic X(H)Y (prince albert)
hemophilic X(H)X(h) (queen victoria)
c.)yes
Ramos,Monica
ReplyDeleteSamaria
a.) hemophiliac X(h)Y
b.)non-hemophilic X(H)Y (prince albert)
hemophilic X(H)X(h) (queen victoria)
c.)yes
a. X^h Y
ReplyDeleteb. Prince Albert: X^H Y , Queen Victoria: X X^h
c. No.
Dela Peña,Juvylene R.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
⚫X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
⚫Prince Albert-X(H)Y
⚫Queen Victoria-X(H)X(H)
c.) Is it possible that each daughter could have been a carrier?
⚫Yes it is possible that each daughter could have been a carrier because hemophilia is an X-linked recessive trait and girls have two X chromosomes so theres more chances that they will be a carrier. I think theres a probability of 25% that each daughter will be a carrier of hemophilia.
Ramos, Jerimie
ReplyDeleteShechem
B
Napaka angas!
ReplyDeleteRamos, Jerimie
ReplyDeleteShechem
B
Ramos, Jerimie
ReplyDeleteShechem
B
Daverick E. Deleon
ReplyDeleteShunem
a. offsring:
Genotypes: Hh and Hh
b. Genotypes: Hh and Hh
c. 50% posible that each daughter could have been a carrier
Rafael A. Oloya
ReplyDelete12-Shunem
a.) XhY
b.) prince albert XhXH and queen victoria XHY
c.) yes.
Marquez,Jenelle Mae G.
ReplyDeleteSmyrna
a.) X^hY
b.) Prince Albert: X^HY
Queen Victoria: X^HY^h
c.) YES, It is possible
Castro, Alyssa Mae
ReplyDeleteSmyrna
a. X^hY
b. Queen Victoria: X^HX^h
Prince Albert: X^HY
c. Yes.
RAMIREZ, LANCE WILLIAM T.
ReplyDeleteSMYRNA
A.) X^hY
B.)For prince albert: X^HY
For Queen Victoria: X^HX^h
C.) Yes there is a possibility.
James Jagape
ReplyDeleteShunem
a.XhY
b.Prince Albert XhXH and Queen Victoria
c.Yes
Dave Lawrence P. Abacco
ReplyDeleteSamaria
a.) X^hY
b.) Prince ALbert: X^HY Queen Victoria: X^HX^h
c.) Yes
BAWIT, Jelany
ReplyDeleteSHUNEM
a. Xa Y
b. Prince Albert - XA Y
Queen Victoria - XA Xa
c. No
B
ReplyDeleteA) Xa Y
ReplyDeleteA) Xa Y
ReplyDeleteB) prince albert XA Y
Queen Victoria XA Xa
C) no
formiloza, genesis A.
ReplyDeleteSmyrna
a.) X^H X^H=25%, X^h Y= 25%, X^h X^H=25%, X^h Y=25%
b.)prince albert:
X^h Y
Queen Victoria:
X^H X^h
C.) yes
BATHAN,CHARL
ReplyDeleteSHUNEM
a.Xa Y
b. Prince Albert - XA Y
Queen Victorio - XA Xa
c. No
The girls are normal but half of them are carriers, the half of the boy are normal ans half have hemophilia
GABRIEL,REYNANTE A.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a. Determine his genotype.
-X(h)Y
b. What could be the genotypes of the Prince Albert and Queen Victoria?
-X(H)X(h)=Queen Victoria
-X(H)Y = Prince Albert
c. Is it possible that each daughter could have been a carrier?
-Yes, there is still a 25% possibility that she is a carrier.
Serafin, Jade Cerise Ammirey J.
ReplyDelete12- SAMARIA
a.) XX XY XX XY
b.) XX XY
c.) Yes it is
Romeo P. Alura II
ReplyDeleteSamaria
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Cherryl Ann P. Almodal
ReplyDeleteSamaria
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
a.) determine his genotype.
ReplyDelete•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
a.) determine his genotype.
ReplyDelete•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
a.) determine his genotype.
ReplyDelete•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
a.) determine his genotype.
ReplyDelete•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
Ellaine Endrinal
ReplyDeleteSamaria
A. X(h)Y
B. X(H)X(h)=Queen Victoria
X(H)Y = Prince Albert
C.Yes, there is still a 25% possibility that she is a carrier.
David, Timothy Paul A.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Daga-as, Stephanie Shanin M.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Paet, Carlo John T.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% poss
Bandol, Leslie Ann M.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% poss
Bandol, Leslie Ann M.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% poss
Bandol, Leslie Ann M.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% poss
Suzara, Jennilyn
ReplyDeleteShechem
Answers:
A. X(h)Y
B. Queen Victoria= X(H)X(h)
Prince Albert= X(H)Y
C.Yes but it can also be possible that one is affected
Suzara, Jennilyn
ReplyDeleteShechem
Answers:
A. X(h)Y
B. Queen Victoria= X(H)X(h)
Prince Albert= X(H)Y
C.Yes but it can also be possible that one is affected
Suzara, Jennilyn
ReplyDeleteShechem
Answers:
A. X(h)Y
B.Queen Victoria- X(H)X(h)
Prince Albert- X(H)Y
C. Yes, but it can be possible that one is affected
Julliene Lizarda
ReplyDeleteShechem
a. X(h)Y
b. Queen Victoria's genotype is X(H)X(h) and Prince Albert's genotype is X(H)Y
c. Yes
Fatima Valdez
ReplyDeleteShechem
a. X(h)Y
b. Queen Victoria's genotype is X(H)X(h) and Prince Albert's genotype is X(H)Y
c. Yes
Mark Jonathan E. Trozado
ReplyDeleteShiloh
a. X(h)Y
b. Queen Victoria's genotype is X(H)X(h) and Prince Albert's genotype is X(H)Y
c. Yes
Canceran Jhun Chris
ReplyDeleteShechem
A.AaBb
B.AABB
C.Yes
France Pederiso
ReplyDeleteShiloh
a). Genotype of Prince Leopold is X(h)Y
b). Prince Albert's Genotype is X(H)Y and Queen Victoria's Genotype is X(H)X(h)
c). NO.
a
ReplyDeleteNo comment
ReplyDeleteJazz Aaron Buenafe
ReplyDeleteShunem
a) X[h]Y
b) Prince Albert = X[H]Y Queen Victoria= X[H]X[h]
c) NO.
Jelary Navarro
ReplyDeleteSmyrna
a. The Genotype of Prince Leopold is X(h)Y.
b. Genotype of Queen Victoria- X(H)X(h). Genotype of Prince Albert- X(H)Y.
c. The daughters could have either of the following genotypes and phenotypes: X(H)X(h) (heterozygous- carrier female but unaffected by hemophilia) or X(H)X(H) (homozygous dominant- female not known to be carrier).
BAQUIRAN,REI
ReplyDeleteSALEM
A. 25% Xh y Prince Leopold will have the disease.
B. Prince Albert = 25% XH y will not have the disease.
Queen Victoria = 25% XH Xh carrier of the disease
C.There woulb be a chance that 1 daughter coild be carrier of the disease
Lim,Ralph John D.
ReplyDeleteSHECHEM
a. XhY= carrier
b. Xhx= 25% XhXh= 25% XY= 25% XhY= 25% XhY=25%
c. Yes
Original na po ito
Villanueva, Regine
ReplyDeleteSamaria
a.)
•X(h)Y
b.)
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.)
•Yes, there is still a 25% possibility that she is a carrier.
HIROLLY B. MORALES
ReplyDelete12-SHUNEM
C
Hirolly B. Morales
ReplyDelete12-Shunem
c
Guillermo, John Lloyd H.
ReplyDeleteSamaria
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Guillermo, John Lloyd H.
ReplyDeleteSamaria
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
C
ReplyDeleteHernandez Clarissa Mhae
ReplyDeleteSmyrna
a.)xY. y gene with the affected x hemophilia gene.
b.)XY and Xx with the genotype ratio of 1:1:1:1 for their offspring.
c.) it's possible. all of Queen Victoria's daughter each have a 25% chance of being a carrier since she is a carrier herself and will either pass the recessive defective x gene or the unaffected x gene to her daughters
Full Name: Izzy Rose M. Decena
ReplyDeleteSection: Salem (STEM)
Answers on Problem Exercise:
a.) His genotype has a 100% afflicted with the disease because 2 of them was the carrier and the other 6 are normal.
b.) The genotypes of Prince Albert and Queen Victoria has 1 male affected by hemophilia, 2 of their daughter was the carrier, 3 daughter would be the normal ones and same as their 3 son.
c.) No, because based on the genotypes of Prince Albert and Queen Victoria it has only 2 of their daughter would be the carrier of hemophilia.
BALARUSAN, EMMANUEL B
ReplyDeleteSMYRNA
A) X^hY
B) Prince Albert: X^HY
Queen Victoria: X^HX^h
C) Yes
Denniella Llobrera Vidad
ReplyDelete12 STEM Salem
a) XhY
b) Prince Albert (XHX) ; Queen Victoria (XHXh)
c) Yes
Rivera, Jolinalyn D.
ReplyDeleteGrade 12 Salem
a. X^cY
b. Prince Albert= XY, Queen Victoria= X^cX^c or X^cX
c. Yes, there is a possibility.
Tapar, Michael Angelo L.
ReplyDeleteGrade 12 Salem
a. XcY
b. Prince Albert= XY, Queen Victoria= XcXc or XcX
c. Yes, it's possible
Name: Verzosa, Christine S.
ReplyDeleteSection: SHECHEM
A.X(h)Y
B.Queen Victoria- X(h)X(h)
Prince Albert- XY
C. Yes
Armil, Jeanovelle Mae
ReplyDeleteSamaria
a.)
•X(h)Y
b.)
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.)
•Yes, there is still a 25% possibility that she is a carrier.
Armil, Jeanovelle Mae
ReplyDeleteSamaria
a.)
•X(h)Y
b.)
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.)
•Yes, there is still a 25% possibility that she is a carrier.
Name: Verzosa, Christine S.
ReplyDeleteSection: SHECHEM
A. X(h)Y
B. Queen Victoria- X(h)X(h)
Prince Albert- XY
C. Yes
Ma. Angela J. Delos Santos
ReplyDeleteSalem
a. Prince Leopold's genotype is XX*
b. The genotyope of Prince Albert is X*Y. The genotype of Queen Victoria is X*X
c. Yes but not all of them
Keff Ivan C. Cariño
ReplyDeleteGrade 12 - Salem
A.) Cross: Pq x Pq
Genotypic Ratio: 1:2:1 (25% Normal, 50% Carrier, no symptoms, 25% has hemophilia)
B.) Cross: PP x qq
Genotype: 100% Carrier, no symptoms
C.) There is a 1/2 possibility for both daughters of Queen Victoria for them to be a carrier of the disease.
Gumalal, Elaine S.
ReplyDelete12- Salem
a. Crossing of parents: Pq x Pq
Genotypic Ratio: 1:2:1 (25% Normal, 50% Carrier, no symptoms, 25% has hemophilia)
b. 25% Normal, 50% Carrier, no symptoms, 25% has hemophilia
c. Yes, it has a 1/2 possibility
Plomantes, Ahndrea Gail L.
ReplyDeletea. Crossing of parents: Pq x Pq
(25% Normal, 50% Carrier, no symptoms, 25% has hemophilia)
Genotypic Ratio: 1:2:1
b. 25% Normal, 50% Carrier, no symptoms, 25% has hemophilia
c. Yes, it has a 50% possibility
Juan Carlos V. Realuyo
ReplyDelete12 - Shunem (STEM)
a. X(h)Y
b. X(H)X(h) = Queen Victoria
X(H)Y = Prince Albert
c. Yes, there is a 25% probability that she is a carrier.
Dimayuga, Ian Cris
ReplyDeleteSamaria
A.) Heterozygous Male
B.) Prince A. - Heterozugous Male, Queen V. - Heterozygous Female
C.) Yes
Zenarosa Charles Justine E.
ReplyDelete12- Salem
a. Crossing of parents: Pq x Pq
(50%carrier, 25%normal , 25% hemophilia , no symptoms)
Genotypic Ratio: 1:2:1
B.(50% carrier, 25% normal, 25% has hemophilia, has no symptoms)
c. Yes, the daughter has a chance to be a carrier, and has a possibility of 1/2
If: X^H - normal
ReplyDeleteand X^h - hemophilia
a.) His genotype is X^hY
b.) Prince Albert's genotype is X^HY while Queen Victoria's genotype is X^HX^h
c.) It is possible that each of their daughter could have been a carrier because there is a 50% chance that their daughter will be a carrier
Mark Ryan Berroya
ReplyDeleteShechem
If: X^H - normal
and X^h - hemophilia
a.) His genotype is X^hY
b.) Prince Albert's genotype is X^HY while Queen Victoria's genotype is X^HX^h
c.) It is possible that each of their daughter could have been a carrier because there is a 50% chance that their daughter will be a carrier
Neyra, Marielle M.
ReplyDeleteSMYRNA
a.) his genotype is X(h)Y
b.) Prince Albert genotype is XY while Queen Victoia's genotype is XX(h)
c.) Yes because if the disease is hereditary you can either a carrier or affected. but each daughter is not affected so the daughter can be a carrier.
Mark Lester G. Bulo
ReplyDeleteShechem
a. X(h)Y
b. Queen Victoria's genotype is X(H)X(h) and Prince Albert's genotype is X(H)Y
c. Yes
GACULA, KAECELINE J.
ReplyDeleteSHECHEM
a. His genotype is X^hY
b. Prince Albert's genotype is X^HY while Queen Victoria"s genotype is X^HX^h
c. There's a possibility that each of their daughter could have been a carrier(there's a 50% chance that their daughter will be a carrier)
A. X(h)Y
ReplyDeleteB. Prince Albert: X(H)Y
Queen Victoria: X(H)X(h)
C. Yes
A. X(h)Y
ReplyDeleteB. Prince Albert: X(H)Y
Queen Victoria: X(H)X(h)
C. Yes
A. X(h)Y
ReplyDeleteB. Prince Albert: X(H)Y
Queen Victoria: X(H)X(h)
C. Yes
Cunanan, Evanz M. Samaria
ReplyDeleteA. X(h)Y
B. Prince Albert: X(H)Y
Queen Victoria: X(H)X(h)
C. Yes
Kyle Justin O. Lim
ReplyDeleteSAMARIA
A.) HH
B.) Hh
c.) YES
Kyle Justin O. Lim
ReplyDeleteSAMARIA
A.) HH
B.) Hh
c.) YES
Sadicon, John Carlo O.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Sadicon, John Carlo O.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Panela, Glorilyn C.
ReplyDelete12-Samaria
A. X(h)Y
B. Prince Albert, X(H)Y
Queen Victoria, X(H)X(h)
C. Yes
Cunanan, Evanz M.
ReplyDeleteSamaria
A. X(h)Y
B. Prince Albert: X(H)Y
Queen Victoria: X(H)X(h)
C. Yes
A. Genotype=Pp 50% or pp 50%
ReplyDeleteB. Genotype= Prince Albert=pp P p
Victoria= Pp p Pp pp
p Pp pp
C. Yes
a.) X raised to h then Y
ReplyDeleteb.) XHY then XHXh
3.) Yes
Thankyou
ReplyDeleteA) genotype=XXHXhY(50%),XXhXhY(50%)
ReplyDeleteB)genotype of prince albert=Xhy
Victoria= XXH and XXh
C) yes
Ralph Andrei Alipe
ReplyDeleteSHILOH
A.) x(h)Y
B.) X(H)YX(H)Y(h))
C.) No
Rafael E. Valeña
ReplyDeleteSALEM- STEM
A) genotype
= 50%(pp) 50%(Pp)
B) genotype of
Prince albert (pp)
Queen victoria (Pp)
C)Yes
Andres, Lhynvhoyluiz
ReplyDeletesmyrna
A 50% XX^h and YX^h
B XY and X^hX^h
C yes it is possible
De Lima, Zeus
ReplyDelete12-Shiloh(Stem)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
DANA LOU S. MADAYAG
ReplyDeleteSMYRNA
A.) X^hY (affected male)
B.) Prince Albert: XY , Queen Victoria: XX^h Heterozygous Female (carrier)
C>) Yes
A. XhY
ReplyDeleteB.XHY ;XHXh
C. Yes
Justine Mae O. Docdoc
ReplyDelete12 - salem
A. Xhy
B. XHY ; XHXh
C. Yes
Escanlar Renzoval
ReplyDeleteShunem
a.XhY
b.X(H)X(h) = Queen Victoria
X(H)Y = Prince Albert
c.Yes, there is still a 25 % possibility that she is a carrier
A. x(h)Y
ReplyDeleteB. X(H)YX(H)Y(h)
C. No
Vierneza, Jezle John
ReplyDelete12-Shiloh (STEM)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Castor, Dexter
ReplyDelete12-Shiloh (STEM)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Castor,Dexter
ReplyDelete12-Shiloh (STEM)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Velasco,Analyn F.
ReplyDelete12- Shilioh (STEM)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Lomeda, Charles Adrian C.
ReplyDelete12-Shiloh (stem)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Casabuena, Laila Mariah S.
ReplyDelete12-Shiloh (stem)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Bihag, Kurt James
ReplyDeleteGrade 12- Salem
a.) 50% Hh 50% hh
b.) Hh-Prince Albert hh- Queen Victoria
c.) Yes
Ervin Joseph A. Valiente
ReplyDeleteShechem
a.) homozygous dominant
b.) homozygous dominant and homozygous recessive
c.) YES
jc maisa
ReplyDeleteshechem
If: X^H - normal
and X^h - hemophilia
a.) His genotype is X^hY
b.) Prince Albert's genotype is X^HY while Queen Victoria's genotype is X^HX^h
c.) It is possible that each of their daughter could have been a carrier because there is a 50% chance that their daughter will be a carrier
A. Pp-50% pp-50%
ReplyDeleteB. Prince Albert- pp
Victoria - Pp
C. Yes
Angel Jullianne H. Arevalo
ReplyDeleteSalem
A. Pp-50% pp-50%
B. Prince Albert- pp
Victoria - Pp
C. Yes
Sherilyn Sarmiento
ReplyDeleteSalem
A. Pp (50%) pp (50%)
B. Prince Albert - pp
Victoria - Pp
C. Yes
ARIAS, ANNE THERESE D.
ReplyDeleteSMYRNA
A.) X^hY
B.) Prince Albert: X^HY
Quen Victoria: X^HX^h
C.) Yes there is a possibility.
Jomar H. Francisco
ReplyDeleteShechem
B
Jomar H. Francisco
ReplyDeleteShechem
B
Tolentino, Nigel Andrei
ReplyDeleteGr. 12 - Smyrna
a.) X(h) Y
b.) Prince Albert (X(H) Y)
Queen Victoria (X(H) X(h))
c.) Yes, because their mother has hemophilia so all of the children has a possibility of being a Carrier.
Jomar H. Francisco
ReplyDeleteShechem
A.) Homozygous Dominant
B.) Homozygous Dominant and Homozygous Recessive
C.) Yes
Jomar H. Francisco
ReplyDeleteShechem
A.) Homozygous Dominant
B.) Homozygous Dominant and Homozygous Recessive
C.) Yes
If: X^H - normal
ReplyDeleteand X^h - hemophilia
a.) His genotype is X^hY
b.) Prince Albert's genotype is X^HY while Queen Victoria's genotype is X^HX^h
c.) It is possible that each of their daughter could have been a carrier because there is a 50% chance that their daughter will be a carrier
Josine Kara L. Penarubia
ReplyDeleteGrade 12 - Shechem
a). His genotype is X^hY
b). Prince Albert's genotype is X^HY while Queen Victoria's genotype is X^HX^h
c). It is possible because there is a 50% chance that their daughter will be a carrier.
If: X^H - normal
ReplyDeleteand X^h - hemophilia
a.) His genotype is X^hY
b.) Prince Albert's genotype is X^HY then the Queen Victoria's genotype is X^HX^h
c.) A possible result is that each of their daughter could have been a carrier because there is a 50% chance that their daughter will be a carrier
Gabriel, reynante A.
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
Name : Jessica Ibanez
ReplyDeleteSection: Samaria
1.) X(h)Y
2.) King - X(H)Y
Queen - X(H)X(h)
3.) YES. 25 percent probability
Eusebio, Ace
ReplyDeleteShunem
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still have a 25% possibility that she is a carrier.
a. XhY. A recessive, sex-linked blood clotting disorder.
ReplyDeleteb. Prince Albert is XHXh while Queen Victoria is XHY.
c. Yes.
Murillo Ryan
ReplyDeleteShiloh
a.x(h)Y
b.X(H)Y X(H)Y(h)
c.No
Slightly hard
ReplyDelete1.) His Genotype would be X^hY since hemophilia is an X-linked trait
ReplyDelete2.) -Prince Albert – X^H Y -Queen Victoria – X^H X^h
3.) Yes
Full Name: Gerome D. Anduyan
Section: Stem - Smyrna
Angel Dariell Ann Reyes
ReplyDeleteShechem
a.) determine his genotype.
•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
Name: Marie Pearl G. Cinco
ReplyDeleteSection: 12- Samaria
A. X(h)Y
B. X(H)x(h)=Queen Victoria
X(H)Y = Prince Albert
C. Yes, there is still a 25% possibility that she is carrier.
A. X(h)y
ReplyDeleteB. X(H)X(h)= Queen Victoria
X(H)Y = Prince Albert
C. Yes, there is still a 25% possibility that she is carrier
Rohcell King D. Sisit
ReplyDeleteSamaria
a. hh
b. Prince Albert- Hh
Queen Victoria- Hh
c. Yes
Jimson P. Book
ReplyDeleteSamaria
a. hh.
b. Prince Albert- Hh
Queen Victoria- Hh
c. Yes.
DANNIELLE L. OLIVAREZ
ReplyDelete12-SHECHEM
a. X(h)Y
b. Queen Victoria's genotype is X(H)X(h) and Prince Albert's genotype is X(H)Y
c. Yes
Jolibeth Basbas
ReplyDeleteShechem
a. X(h)Y
b. Queen Victoria's genotype is X(H)X(h) and Prince Albert's genotype is X(H)Y
c. Yes
Krizzel Bautista
ReplyDeleteSHECHEM
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
john Benedict E. De Leon
ReplyDeleteGrade 12-SHECHEM
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
Jc Love C. Ravello
ReplyDeleteShechem
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
•X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
•X(H)X(h)=Queen Victoria
•X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
•Yes, there is still a 25% possibility that she is a carrier.
Velasco,Analyn F.
ReplyDelete12-SHILOH (STEM)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Full Name: Izzy Rose M. Decena
ReplyDeleteSection: SALEM (STEM)
Answers on the Problem:
A.) Price Leopold genotype was X^hY and he is afficted with the disease because the small letter "h" represent the affected genotype while the big letter "H" represent that the person is normal.
B.)The genotype of Prince Albert was X^HY because he is normal while Queen Elizabeth is X^HX^h because she is the carrier of hemophilia but not affected of the disease.
C.)Yes because based on the genotypes of Queen Elizabeth is carrier of hemophilia so it is possible that each of her daughter would become carrier of that disease.
Malicdem, jerico s
ReplyDelete12-Shiloh (stem)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
Malicdem, Jerico S.
ReplyDelete12-Shiloh (stem)
A. x(h)Y
B. X(H)Y X(H)Y(h)
C. No
HIROLLY MORALES B.
ReplyDelete12-SHUNEM
a.) XhY
B.)XhXH and XHY
C.) 50% of female can be carrier
sir mali po yung una kung sagot haha sorry po sir ngayon ko lang na gets yung tanong... salamat sa pag unawa sir
Aisha Mhikyail P. Buenaventura
ReplyDeleteGrade 12 - Salem
a) X^(h)Y
b) Queen Victoria - X^(h)X^(h)
Prince Albert- X^(H)Y
c) No
Aisha Mhikyail P. Buenaventura
ReplyDeleteGrade 12 - Salem
a) X^(h)Y
b) Queen Victoria - X^(h)X^(h)
Prince Albert - X^(H)Y
c) No
Robert R. Bagalihog
ReplyDeleteShunem
a)X^cY
b)XY and X^cX
c)yes
eleubert enzo
ReplyDelete12-shunem
a) Xa Y
b) Prince Albert- XA Y
Queen Victoria- XA Xa
c) no
Nicole ann silaya- shunem
ReplyDeletea. XcY
b. XcX- queen victoria
XY-prince albert
c. No
a.) X(h)Y
ReplyDeleteb.) X(H)X(h)= Queen Victoria
X(H)Y= Prince Albert
c.) Yes, there is still 25% possibility that she is a carrier
a. X(h)Y
ReplyDeleteb. Queen Victoria's genotype is X(H)X(h) and Prince Albert's genotype is X(H)Y
c. Yes
Mercolita,Christian Lloyd G.
ReplyDelete12-Shunem
a.) XhY
b.) XhXH and XHY
c.) 50% of female can be a carrier
1. X(h)Y
ReplyDelete2.Queen Victoria- X(H)X(h)
Prince Albert- X(H)Y
3. Yes, but one can be also affected
YEBES,DANICA
ReplyDelete12-SHUNEM
ANSWERS:
a.) Xa Y
b.) Prince Albert - XA Y
Queen Victoria - XA Xa
c.) no
Eleubert Enzo
ReplyDelete12-Shunem
a.) Xa Y
b.) Prince Albert - XA Y
Queen Victoria - XA Xa
c.) no
a) XcY
ReplyDeleteb) XcX for Queen
XY for Albert
c) Yes
a. XcY
ReplyDeleteb. XcY queen / XY Albert
c. Yes
Nilose Ann silaya
G12 Shunem
a. XcY
ReplyDeleteb. XcY queen / XY Albert
c. Yes
Analyn Ramirez
G12 Shunem
Aple joy alag
ReplyDeleteShiloh
A.) x(h)Y
B.) X(H)YX(H)Y(h))
C.) No
Solidarios Kyle R,
ReplyDeleteSamaria
When Prince Albert of Saxe-Coburg and Gotha married Queen Victoria of United Kingdom, they had nine children (four boys and five girls).
On March 27, 1884, one of Queen Victoria's sons fell down some stairs at a yacht club in southern France. The accident was minor; Prince Leopold suffered nothing more than a few bumps and bruises. But the 31-year-old Duke of Albany had hemophilia or the royal bleeding disease.
Queen Victoria passed the disease into her three children, Alice, Beatrice and Leopold. Prince Leopold the only one afflicted with hemophilia died from the post-accident hemorrhage when he was 31.
If only Prince Leopold was afflicted with the disease,
a.) determine his genotype.
• X(h)Y
b.) What could be the genotypes of the Prince Albert and Queen Victoria?
• X(H)X(h)=Queen Victoria
• X(H)Y = Prince Albert
c.) Is it possible that each daughter could have been a carrier?
• Yes, there is still a 25% possibility that she is a carrier.
Angelo Ken C. Munda
ReplyDeleteSmyrna
A. The genotype of Prince Leopold is a 50% chance of getting hemophilia and a 50% chance of not. X(h)Y.
B. Prince Albert has a X(H)Y Genotype while his mother has a X(h)X(h) Genotype.
c. The daughters have been a carrier because they inherited the altered gene from their mother who is a carrier of hemophilia. There is 25% of possibility that she is a carrier.