Do we know Jesus
DNA & Blood Type ?
What Scientist know about Blood Types and How it works
You’ve probably donated blood at least once in your life so, along with free apple juice, the American Red Cross gave you a card identifying your blood type.
If you found out you're type AB, you're pretty unique, in fact, you have the rarest blood type of all.
So why are so few people categorized as AB?
“We inherit our blood groups on genes,” Dr. Leslie Silberstein, a spokesperson for the American Society of Hematology and hematologist at Boston Children’s Hospital and Harvard Stem Cell Institute, told Medical Daily. “The blood group gene encodes for a protein that gets expressed on the surface of the red cell and that is what we detect in the laboratory. So what is expressed on the surface of the cell determines the type and which blood is compatible with which patient.”
Let’s take a step back to refresh the basics. All blood contains the same basic components : red cells, white cells, platelets, and plasma, which is the liquid portion of blood holding the red and white blood cells along with the platelets in suspension.
We inherit blood group genes from our parents, with odds of receiving one A and one B gene lower than other possible combinations. Getty Images
Red Blood Cells Red blood cells, manufactured in the bone marrow, perform the hard work of carrying oxygen around the body. In every two to three drops of blood, roughly one billion blood cells reside.
Red cells far outnumber both the platelets, which stop bleeding by clotting blood vessel injuries, and white cells, which protect your body from pathogens and disease. For every 600 red blood cells there are a mere 40 platelets and just one solitary white blood cell.
On the surface of the red blood cells, as Silberstein explained, are proteins with attached carbohydrates, essentially markers that identify the blood cells as our own. These microscopic markers, known as antigens, are commonly grouped in eight basic blood types :
A, B, AB, and O, each of which can be either “positive” or “negative.”
“Blood group A means you have at least one blood group A gene and as a consequence your blood expresses an enzyme that attaches a distinct sugar to the protein or lipid on the red blood cell surface,” says Silberstein. “Blood group A has only A antigens.”
Similarly, blood group B has only B antigens, blood group AB has both, and blood group O has neither A nor B antigens on the surface of the red blood cells. These four groups are the most important because they indicate which blood type a patient can safely receive in a transfusion.
Patients receiving an incompatible blood type often experience a dangerous reaction; their immune system would recognize the unfamiliar antigen on the blood cell surface and attack. So if you were to give blood group A to a blood group B patient, their body would mount an immune response to destroy what it recognized as a foreign invader.
Meanwhile, your blood is either “positive,” meaning it contains the Rhesus D antigen, or “negative” meaning it lacks it. This is another inherited blood marker that also matters when it comes time for a transfusion.
Different blood groups are more and less common, with Stanford School of Medicine calculating the proportions in the general population as follows:
Rarest of AllStill, this chart makes it easier to see why blood type AB is so rare. Though you inherit one gene for blood type from each parent, there’s an unusual catch: whenever you inherit an O gene, it more or less has no impact on the other gene inherited. So A type people either inherited an A gene from both parents or an A gene from one parent and an O gene from the other. Same for B group people. O blood type people inherited two O genes.
People with AB blood inherited an A gene from one parent and a B gene from the other. Based on the underlying number of people in the A and B blood types, the odds of that particular combination happening are simply lower than any other possibility.
In the case of blood types , being the rare one offers one huge advantage: people who are AB positive can receive any blood type and so are known as “universal recipients.” If you’re more of a giver, though, you’d much rather have O negative blood. Known as the “universal donors,” these generous souls can give to, and be accepted by anyone in need because there body can accept all blood groups and have all possible antibodies. It wont reject any blood type as the blood identifies as self. ( Thinking of Jesus ...never rejecting and always accepting everyone...hmmm ...and we are covered by the Holy Blood of our Lord Jesus Christ of Nazareth...makes this think there is so much more to his blood type and the power of His blood)
Each year, 5 million Americans receive a necessary transfusion. No matter your type, please consider giving the
gift of life sometime soon.
REF- International Business Times/Technology Written by Susan Scutti
You’ve probably donated blood at least once in your life so, along with free apple juice, the American Red Cross gave you a card identifying your blood type.
If you found out you're type AB, you're pretty unique, in fact, you have the rarest blood type of all.
So why are so few people categorized as AB?
“We inherit our blood groups on genes,” Dr. Leslie Silberstein, a spokesperson for the American Society of Hematology and hematologist at Boston Children’s Hospital and Harvard Stem Cell Institute, told Medical Daily. “The blood group gene encodes for a protein that gets expressed on the surface of the red cell and that is what we detect in the laboratory. So what is expressed on the surface of the cell determines the type and which blood is compatible with which patient.”
Let’s take a step back to refresh the basics. All blood contains the same basic components : red cells, white cells, platelets, and plasma, which is the liquid portion of blood holding the red and white blood cells along with the platelets in suspension.
We inherit blood group genes from our parents, with odds of receiving one A and one B gene lower than other possible combinations. Getty Images
Red Blood Cells Red blood cells, manufactured in the bone marrow, perform the hard work of carrying oxygen around the body. In every two to three drops of blood, roughly one billion blood cells reside.
Red cells far outnumber both the platelets, which stop bleeding by clotting blood vessel injuries, and white cells, which protect your body from pathogens and disease. For every 600 red blood cells there are a mere 40 platelets and just one solitary white blood cell.
On the surface of the red blood cells, as Silberstein explained, are proteins with attached carbohydrates, essentially markers that identify the blood cells as our own. These microscopic markers, known as antigens, are commonly grouped in eight basic blood types :
A, B, AB, and O, each of which can be either “positive” or “negative.”
“Blood group A means you have at least one blood group A gene and as a consequence your blood expresses an enzyme that attaches a distinct sugar to the protein or lipid on the red blood cell surface,” says Silberstein. “Blood group A has only A antigens.”
Similarly, blood group B has only B antigens, blood group AB has both, and blood group O has neither A nor B antigens on the surface of the red blood cells. These four groups are the most important because they indicate which blood type a patient can safely receive in a transfusion.
Patients receiving an incompatible blood type often experience a dangerous reaction; their immune system would recognize the unfamiliar antigen on the blood cell surface and attack. So if you were to give blood group A to a blood group B patient, their body would mount an immune response to destroy what it recognized as a foreign invader.
Meanwhile, your blood is either “positive,” meaning it contains the Rhesus D antigen, or “negative” meaning it lacks it. This is another inherited blood marker that also matters when it comes time for a transfusion.
Different blood groups are more and less common, with Stanford School of Medicine calculating the proportions in the general population as follows:
- O-positive: 37.4 percent
- O-negative: 6.6 percent
- A-positive: 35.7 percent
- A-negative: 6.3 percent
- B-positive: 8.5 percent
- B-negative: 1.5 percent
- AB-positive: 3.4 percent
- AB-negative: 0.6 percent
Rarest of AllStill, this chart makes it easier to see why blood type AB is so rare. Though you inherit one gene for blood type from each parent, there’s an unusual catch: whenever you inherit an O gene, it more or less has no impact on the other gene inherited. So A type people either inherited an A gene from both parents or an A gene from one parent and an O gene from the other. Same for B group people. O blood type people inherited two O genes.
People with AB blood inherited an A gene from one parent and a B gene from the other. Based on the underlying number of people in the A and B blood types, the odds of that particular combination happening are simply lower than any other possibility.
In the case of blood types , being the rare one offers one huge advantage: people who are AB positive can receive any blood type and so are known as “universal recipients.” If you’re more of a giver, though, you’d much rather have O negative blood. Known as the “universal donors,” these generous souls can give to, and be accepted by anyone in need because there body can accept all blood groups and have all possible antibodies. It wont reject any blood type as the blood identifies as self. ( Thinking of Jesus ...never rejecting and always accepting everyone...hmmm ...and we are covered by the Holy Blood of our Lord Jesus Christ of Nazareth...makes this think there is so much more to his blood type and the power of His blood)
Each year, 5 million Americans receive a necessary transfusion. No matter your type, please consider giving the
gift of life sometime soon.
REF- International Business Times/Technology Written by Susan Scutti
Jesus and Blood found on the Shroud of Turin
Perhaps the most reputed piece of information related to Jesus himself, is the Shroud of Turin, bearing the image of a man who appears to have suffered physical trauma in a manner consistent with crucifixion.
First and foremost is the Shroud of Turin. Secured in a vault in the Cathedral of St. John the Baptist in Turin, Italy, the Shroud is believed by millions to be the burial cloth of Jesus. It is a fine linen cloth, measuring 14.5 feet by 3.5 feet, and mysteriously displays a finely detailed negative photographic image — front and back, head to toe, of an anatomically correct man who appears to have been tortured, beaten, and crucified. Note that, in their accounts of Christ’s suffering and death on the cross, all four Gospels mention a “fine linen cloth.”
Perhaps it is a coincidence, but clearly seen on the body of the crucified man in the Shroud are gruesome markings consistent with the Gospel accounts of Christ’s Passion. You can count over 100 whip marks, possibly from scourging by Roman flagra, and identify on his wrists and feet obvious wounds that could have been from large spikes. Other markings are compatible with what could have been a crown of thorns. On closer examination, you can spot bruises (from beatings?) on his face, knees (from falling?), and the back of his shoulders (from carrying a heavy cross?), and a large bloody mark (from a spear?) in his side. Like the crucified Jesus in Gospel accounts, the man in the Shroud had no broken bones.
Perhaps it is a coincidence, but clearly seen on the body of the crucified man in the Shroud are gruesome markings consistent with the Gospel accounts of Christ’s Passion.
The Shroud, the most studied, analyzed, and tested religious relic in the world, has spawned a vast, global field of scientific study, called “sindonology,” but still baffles scientists. Its mysteries are many and complex. For brevity’s sake, I will only scratch the surface (so to speak).
First among the major mysteries is how the image was made. Second, what is the substance constituting the image, which can be scraped away with a razor blade? The substance is undetermined -- all man-made materials have been ruled out — and only rests on top of the cloth; it does not penetrate the cloth’s linen fibers. The third mystery is related to the second: Blood from the crucified man penetrated the cloth, as one would expect, but also preceded the impression of the man’s image. “Blood first, image second” is a mantra of Shroud researchers. This order is logical if the “man in the Shroud” was in fact Christ, who would have been wrapped in the linen Shroud days before the electrical event (see below) that accompanied his resurrection and resulted in the human image.
The only evidence that would conclusively authenticate the Shroud against naysayers and claims of forgery is Jesus’ DNA. It would be matched against the blood — type AB — found on the Shroud and considered rare.
It was at the Genetics Forensic Laboratory of the University of Bologna, in 2004, equipped with the most modern sophisticated equipment where a team of researchers, doctors, and biologists University Professors found the amazing characteristics, reports Italian author Renzo Allegri.
Ref — Myra Adams is a media producer and writer
“The blood is human blood, of group AB , male ,- the team reported, adding that “the configuration of the genetic features found in the Y chromosome does not correspond to any of the configurations present in the world wide data bank where the data of 22,000 male subjects from 187 different populations is kept.”
“This blood is so rare that it must be considered as almost unique.
By calculation, the statistical probability of finding, in the course of millennia, a typology of the same blood type, is almost nil, the mathematical probability of this happening is in the order of 1 in 200 billion possible cases.”
[In other words 1 on 200,000,000,000.]“
The implication is potentially astonishing: that the blood came from a source that was not preceded by a similar genetic type and was not inherited (as of course Jesus’s Blood, if this was His actual genetic structure, would not have been inherited).
Of course, because something is supernatural does not mean the process of discernment is over.”
First and foremost is the Shroud of Turin. Secured in a vault in the Cathedral of St. John the Baptist in Turin, Italy, the Shroud is believed by millions to be the burial cloth of Jesus. It is a fine linen cloth, measuring 14.5 feet by 3.5 feet, and mysteriously displays a finely detailed negative photographic image — front and back, head to toe, of an anatomically correct man who appears to have been tortured, beaten, and crucified. Note that, in their accounts of Christ’s suffering and death on the cross, all four Gospels mention a “fine linen cloth.”
Perhaps it is a coincidence, but clearly seen on the body of the crucified man in the Shroud are gruesome markings consistent with the Gospel accounts of Christ’s Passion. You can count over 100 whip marks, possibly from scourging by Roman flagra, and identify on his wrists and feet obvious wounds that could have been from large spikes. Other markings are compatible with what could have been a crown of thorns. On closer examination, you can spot bruises (from beatings?) on his face, knees (from falling?), and the back of his shoulders (from carrying a heavy cross?), and a large bloody mark (from a spear?) in his side. Like the crucified Jesus in Gospel accounts, the man in the Shroud had no broken bones.
Perhaps it is a coincidence, but clearly seen on the body of the crucified man in the Shroud are gruesome markings consistent with the Gospel accounts of Christ’s Passion.
The Shroud, the most studied, analyzed, and tested religious relic in the world, has spawned a vast, global field of scientific study, called “sindonology,” but still baffles scientists. Its mysteries are many and complex. For brevity’s sake, I will only scratch the surface (so to speak).
First among the major mysteries is how the image was made. Second, what is the substance constituting the image, which can be scraped away with a razor blade? The substance is undetermined -- all man-made materials have been ruled out — and only rests on top of the cloth; it does not penetrate the cloth’s linen fibers. The third mystery is related to the second: Blood from the crucified man penetrated the cloth, as one would expect, but also preceded the impression of the man’s image. “Blood first, image second” is a mantra of Shroud researchers. This order is logical if the “man in the Shroud” was in fact Christ, who would have been wrapped in the linen Shroud days before the electrical event (see below) that accompanied his resurrection and resulted in the human image.
The only evidence that would conclusively authenticate the Shroud against naysayers and claims of forgery is Jesus’ DNA. It would be matched against the blood — type AB — found on the Shroud and considered rare.
It was at the Genetics Forensic Laboratory of the University of Bologna, in 2004, equipped with the most modern sophisticated equipment where a team of researchers, doctors, and biologists University Professors found the amazing characteristics, reports Italian author Renzo Allegri.
Ref — Myra Adams is a media producer and writer
“The blood is human blood, of group AB , male ,- the team reported, adding that “the configuration of the genetic features found in the Y chromosome does not correspond to any of the configurations present in the world wide data bank where the data of 22,000 male subjects from 187 different populations is kept.”
“This blood is so rare that it must be considered as almost unique.
By calculation, the statistical probability of finding, in the course of millennia, a typology of the same blood type, is almost nil, the mathematical probability of this happening is in the order of 1 in 200 billion possible cases.”
[In other words 1 on 200,000,000,000.]“
The implication is potentially astonishing: that the blood came from a source that was not preceded by a similar genetic type and was not inherited (as of course Jesus’s Blood, if this was His actual genetic structure, would not have been inherited).
Of course, because something is supernatural does not mean the process of discernment is over.”
WaTch the video-One of the most Important influential videos of all time
A team of research scientists in Tel Aviv did a genetic analysis from a blood sample widely believed to have belonged to Jesus, concluding that Jesus’ biological father was ‘non-human’.
This video is audio of a press conference with archaeologist Ron Wyatt. Having 24 distinct chromosomes or 22 autosomes (mother's are duplicated) in addition to 2 (XY) chromosomes, the 22 autosomes of the mother are equal to the corresponding 22 autosomes of the father (one to one) and the X chromosome of the mother (XX) plus the "Y" sex chromosome given by father being (XY).
In total, 2 of His mother's autosomal chromosomes duplicated times 22, plus 1 (X) chromosome + 1 (Y) chromosome = 23 homologous pairs of chromosomes.
Thus, the (Heavenly) Father's (Y) male chromosome was expressed as Jesus.
The DNA Jesus is 96% from Mary rather than 50% from Mary as would be normal. So the Holy Spirit had to have inseminated a virginal Mary with the "Y" chromosome of the one true almighty G-d of Abraham.
A team of research scientists in Tel Aviv did a genetic analysis from a blood sample widely believed to have belonged to Jesus, concluding that Jesus’ biological father was ‘non-human’.
This video is audio of a press conference with archaeologist Ron Wyatt. Having 24 distinct chromosomes or 22 autosomes (mother's are duplicated) in addition to 2 (XY) chromosomes, the 22 autosomes of the mother are equal to the corresponding 22 autosomes of the father (one to one) and the X chromosome of the mother (XX) plus the "Y" sex chromosome given by father being (XY).
In total, 2 of His mother's autosomal chromosomes duplicated times 22, plus 1 (X) chromosome + 1 (Y) chromosome = 23 homologous pairs of chromosomes.
Thus, the (Heavenly) Father's (Y) male chromosome was expressed as Jesus.
The DNA Jesus is 96% from Mary rather than 50% from Mary as would be normal. So the Holy Spirit had to have inseminated a virginal Mary with the "Y" chromosome of the one true almighty G-d of Abraham.
" Covered by the Blood shed on the Cross of our Lord and Savior -Jesus Christ of Nazareth "
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