what is your blood type ?

[sequoias]

*nodding* in agreement .. that is right.. very important as they cant afford to miss minutes to give the victim tranfusion so gotta know right there! so seq boy= u better go and find out soon!

Ok, Laketahoe and Freaky Cat. I'll find a doctor soon that covers my insurance and get a annual check up and ask for a blood type check up.

 

[LakeTahoe]

Good boy! *hand you some lolipop*

Ok, Laketahoe and Freaky Cat. I'll find a doctor soon that covers my insurance and get a annual check up and ask for a blood type check up.

 

[Tousi]

My blood type is one from my Mama and one from my Papa...lol!

 

[Opal]

My blood type is one from my Mama and one from my Papa...lol!

Yankee and Dixie blood type?

Mine is English and Welsh bloods after my parents! LOL

 

[Tousi]

Hehehe, Opal. Believe it or not, I don't know/remember my blood type.

 

[Silentwolfdog]

I know mine is O but I am not too sure if it's + or -. I think it's O+ though. I better find out since I don't want doctor to waste (O-) if mine was actually O+, since O- is universal donor. Want save that for people who need it more.

 

[GalaxyAngel]

Yankee and Dixie blood type?

Mine is English and Welsh bloods after my parents! LOL

 

[VamPyroX]

I think I got tree sap type blood. I asked my mom if she knew my blood type, she said she doesn't know...even my mom doesn't know her blood type, either.

Go donate blood! It's free!

When you donate blood, they usually send you a donor card with your blood type on it.

 

[LakeTahoe]

More info to share

What are Blood Types?

What are Blood Types?

Everybody has a blood type. The most common blood type classification system is the ABO (say "A-B-O") system discovered by Karl Landsteiner in the early 1900s. There are four types of blood in the ABO system: A, B, AB, and O. Your blood type is established before you are born, by specific genes inherited from your parents. You receive one gene from your mother and one from your father; these two combine to establish your blood type. These two genes determine your blood type by causing proteins called agglutinogens (a-GLOO-tin-a-gins) to exist on the surface of all of your red blood cells.

There are three alleles or versions of the blood type gene: A, B, and O. Since everybody has two copies of these genes, there are six possible combinations; AA, BB, OO, AB, AO, and BO. In genetic terms, these combinations are called genotypes, and they describe the genes you got from your parents.

In addition to the proteins (agglutinogens) existing on your red blood cells, other genes make proteins called agglutinins (a-GLOO-tin-ins) that circulate in your blood plasma. Agglutinins are responsible for ensuring that only the blood cells of your blood type exist in your body.
Your genotype determines your blood type.

The agglutinogen produced by the O allele has no special enzymatic activities. However, the agglutinogens produced by the A and B alleles do have enzymatic activities, which are different from each other. Therefore people whose genotype is OO are said to have type O blood, meaning the agglutinogen on their red blood cells doesn't have any enzymatic activity. People with Type O blood have agglutinins a and b in their blood plasma. Agglutinin a helps the body destroy any type A blood cells that might enter the circulation system. Agglutinin b helps the body destroy any type B blood cells that might enter the circulation system.
agglutinogens and agglutinins

People who have an AA genotype are said to have type A blood because the agglutinogen on their red blood cells has the enzyme activity associated with the A allele. It is important to recognize that people with the AO genotype also have the enzyme activity associated with the A allele, so they are also said to have type A blood. (Remember the O allele doesn't have any enzyme activity associated with it!) People with Type A blood have agglutinin b in their blood plasma. Agglutinin b helps the body destroy any type B blood cells that might enter the circulation system.

Likewise, people with the BB and the BO genotypes are said to have type B blood. These people have agglutinin a in their blood plasma. Agglutinin a helps the body destroy any type A blood cells that might enter the circulation system.

People who have the AB genotype have the enzyme activity associated with both the A and B alleles. These people have no agglutinins in their blood plasma.

The concepts of genotype and phenotype can be easily understood in the case of blood type. Genotype refers the actual genes an individual possesses that determine a particular trait. Phenotype refers to the characteristics of that trait an individual displays. In the case of blood type, both the AA and AO genotypes cause individuals to display the A blood type phenotype. Similarly, both the BB and BO genotypes cause individuals to display the B blood type phenotype. Individuals who are phenotypically type O or type AB have only one possible genotype, OO and AB, respectively.

In different parts of the world, the fraction of individuals with blood type A, B, O, or AB differs. The frequency with which blood types are observed is determined by the frequency with which the three alleles of the ABO gene are found in different parts of the world (allele frequency). Variation in the allele frequency at the ABO gene reflects the social tendency of populations to marry and reproduce within a national, regional, or ethnic group. As people throughout the world intermingle to a greater extent, the distribution of the different blood types will become more uniform throughout the world.

 

[LakeTahoe]

Info on Blood Transfusions

What are Blood Transfusions?

I thought this would be helpful for us to understand how it work, etc etc.

What are Blood Transfusions?

Because there are only four types of blood, it is possible to take blood from one person and donate it to another person in a process called transfusion. In order for a transfusion to work it is essential that the agglutinogens on the surface of the donor's blood cells match the agglutinogens on the surface of the recipient's blood cells. In other words, the blood type of the donor and the blood type of the person receiving the transfusion must be compatible. If the blood types don't match, special antibodies in the recipient's blood, called agglutinins, will attack the donated blood causing blood clots to form in a reaction called agglutination.

If you ever need a blood transfusion, someone will take a sample of your blood in order to determine your blood type and the genotypes of matching blood types. Someone with type A blood can receive blood from people with the AA, AO, and OO genotypes. People with type B blood can receive blood from people with the BB, BO, and OO genotypes.
There are two special genotypes when it comes to blood transfusions:
OO and AB.

The first special genotype is OO. People with O blood are said to be universal donors because they can donate blood to everybody. However, people with type O blood can only receive transfusions from other type O donors. Because O blood does not carry either the A or B agglutinogens, the immune system of a person with O blood views these agglutinogens as foreign. People with type O blood have agglutinins in their plasma that will react against the A and B agglutinogens. Therefore, type O blood will undergo agglutination if exposed to A, B, or AB blood.

The second special genotype is AB. People with AB blood are said to be universal recipients because they can receive blood from people with all four blood types. Since in AB blood both the A and B agglutinogens are presented on the surface of the red blood cells, the immune system of a person with AB blood views both of these molecules as part of itself -- not as something foreign. AB blood does not produce agglutinins against either the A or B agglutinogens, and therefore does not undergo agglutination when exposed to A, B, AB, or O blood.

 

[highlands]

Thanks for the valuable info

 

[LakeTahoe]

Welcome!

Thanks for the valuable info

 

[Silentwolfdog]

LakeTahoe ah you just answer my question! Thanks!

 

[Lil_country_gal]

A+

 

[Miss-Delectable]

I'm O+ and my ma couldn't remember so I had to ask two of my sisters!
My mother had this rare type and were injected with some antibody every pregnancy to ensure her kids will have one blood type all from their dad.

 

[Tousi]

Wow, Lake Tahoe, so much information! Does this mean that if I send you a drop of my blood, you can report back to me what type I have?

 

[ADHDready]

hi there

Yes it is rare. I am AB- and my husband was O+. My son is AB (from me) with his father's Rh factor (+), so he is AB+.

You are saying that you are AB- and your husband is O+ then your child can not be AB+ can he. Im sure of it as I have been looking into this for a while with blood types as I am AB+. You can check it out for yourself. This is a good place Blood Type Genetics

 

[deafskeptic]

I am AB- and do not cross match with any other type. Only 1/10 of 1% of the world population is AB-.

My father is also type AB-. My mother is type 0-. I'm type A-.

 

[jillio]

You are saying that you are AB- and your husband is O+ then your child can not be AB+ can he. Im sure of it as I have been looking into this for a while with blood types as I am AB+. You can check it out for yourself. This is a good place Blood Type Genetics

Wow! I guess the doctors made a big mistake, then!

 

[jillio]

My father is also type AB-. My mother is type 0-. I'm type A-.

Simialr to the situation with my son, except that both your parents had -Rh factor.