berlington bertie repliedYou can't do that, you would wipe out the entire population of the USA

Blonde Hair, Blue Eyes repliedNo, there is no need for us to kill them because they are already killing themselves by being so fat.

BIGgourami repliedyou know.. hilter said something similar..


no.. poor diet and sedate lifestyle does NOT equal bad genes

mahboob.hashmi repliedyes, totally

and kill everyone with 0–9

Disorder Mutation Chromosome
1p36 deletion syndrome D 1p37
18p deletion syndrome D 18p
21-hydroxylase deficiency 6p21.3
45,X
see Turner syndrome C X
47,XX,+21
see Down syndrome C 21
47,XXX
see triple X syndrome C X
47,XXY
see Klinefelter syndrome C X
47,XY,+21
see Down syndrome C 21
47,XYY syndrome C Y
5-ALA dehydratase-deficient porphyria
see ALA dehydratase deficiency
5-aminolaevulinic dehydratase deficiency porphyria
see ALA dehydratase deficiency
5p deletion syndrome
see Cri du chat D 5p
5p- syndrome
see Cri du chat D 5p
[edit]A

Disorder Mutation Chromosome
A-T
see ataxia-telangiectasia
AAT
see alpha-1 antitrypsin deficiency
Absence of vas deferens
see congenital bilateral absence of vas deferens
Absent vasa
see congenital bilateral absence of vas deferens
aceruloplasminemia
ACG2
see achondrogenesis type II
ACH
see achondroplasia
Achondrogenesis type II
achondroplasia substitution 4p16.3
Acid beta-glucosidase deficiency
see Gaucher disease type 1
Acrocephalosyndactyly (Apert)
see Apert syndrome
acrocephalosyndactyly, type V
see Pfeiffer syndrome
Acrocephaly
see Apert syndrome
Acute cerebral Gaucher's disease
see Gaucher disease type 2
acute intermittent porphyria
ACY2 deficiency
see Canavan disease
AD
see Alzheimer's disease
Adelaide-type craniosynostosis
see Muenke syndrome
Adenomatous Polyposis Coli
see familial adenomatous polyposis
Adenomatous Polyposis of the Colon
see familial adenomatous polyposis
ADP
see ALA dehydratase deficiency
adenylosuccinate lyase deficiency
Adrenal gland disorders
see 21-hydroxylase deficiency
Adrenogenital syndrome
see 21-hydroxylase deficiency
Adrenoleukodystrophy
AIP
see acute intermittent porphyria
AIS
see androgen insensitivity syndrome
AKU
see alkaptonuria
ALA dehydratase porphyria
see ALA dehydratase deficiency
ALA-D porphyria
see ALA dehydratase deficiency
ALA dehydratase deficiency
Alcaptonuria
see alkaptonuria
Alexander disease
alkaptonuria
Alkaptonuric ochronosis
see alkaptonuria
alpha-1 antitrypsin deficiency 14q32.1
alpha-1 proteinase inhibitor
see alpha-1 antitrypsin deficiency 14q32.1
alpha-1 related emphysema
see alpha-1 antitrypsin deficiency 14q32.1
Alpha-galactosidase A deficiency
see Fabry disease P Xq22.1
ALS
see amyotrophic lateral sclerosis
Alstrom syndrome
ALX
see Alexander disease
Alzheimer disease
Alzheimer's disease
see Alzheimer disease
Amelogenesis Imperfecta
Amino levulinic acid dehydratase deficiency
see ALA dehydratase deficiency
Aminoacylase 2 deficiency
see Canavan disease
amyotrophic lateral sclerosis
Anderson-Fabry disease
see Fabry disease P Xq22.1
androgen insensitivity syndrome
Anemia
Anemia, hereditary sideroblastic
see X-linked sideroblastic anemia X
Anemia, sex-linked hypochromic sideroblastic
see X-linked sideroblastic anemia X
Anemia, splenic, familial
see Gaucher disease
Angelman syndrome
Angiokeratoma Corporis Diffusum
see Fabry's disease P Xq22.1
Angiokeratoma diffuse
see Fabry's disease
Angiomatosis retinae
see von Hippel-Lindau disease
ANH1
see X-linked sideroblastic anemia X
APC resistance, Leiden type
see factor V Leiden thrombophilia
Apert syndrome
AR deficiency
see androgen insensitivity syndrome
AR-CMT2
see Charcot-Marie-Tooth disease, type 2
Arachnodactyly
see Marfan syndrome
ARNSHL
see Nonsyndromic deafness#autosomal recessive
Arthro-ophthalmopathy, hereditary progressive
see Stickler syndrome#COL2A1
Arthrochalasis multiplex congenita
see Ehlers-Danlos syndrome#arthrochalasia type
AS
see Angelman syndrome
Asp deficiency
see Canavan disease
Aspa deficiency
see Canavan disease
Aspartoacylase deficiency
see Canavan disease
ataxia-telangiectasia
Autism-Dementia-Ataxia-Loss of Purposeful Hand Use syndrome
see Rett syndrome
autosomal dominant juvenile ALS
see amyotrophic lateral sclerosis, type 4
Autosomal dominant opitz G/BBB syndrome
see 22q11.2 deletion syndrome D 22q
autosomal recessive form of juvenile ALS type 3
see Amyotrophic lateral sclerosis#type 2
Autosomal recessive nonsyndromic hearing loss
see Nonsyndromic deafness#autosomal recessive
Autosomal Recessive Sensorineural Hearing Impairment and Goiter
see Pendred syndrome
AxD
see Alexander disease
Ayerza syndrome
see primary pulmonary hypertension
[edit]B

Disorder Mutation Chromosome
B variant of the Hexosaminidase GM2 gangliosidosis
see Sandhoff disease
BANF
see neurofibromatosis 2
Beare-Stevenson cutis gyrata syndrome 10q26
Benign paroxysmal peritonitis
see Mediterranean fever, familial
Benjamin syndrome
beta thalassemia
BH4 Deficiency
see tetrahydrobiopterin deficiency
Bilateral Acoustic Neurofibromatosis
see neurofibromatosis 2
biotinidase deficiency
bladder cancer

tigris repliedactually, being fat can also mean that they are very good in extracting maximum calories out of available food. That's very advantageous if there is not sufficient food around. In this situation it's a very good thing.
Eliminating variety from the gene pool is not only unethical but also very stupid from an evolutionary standpoint. Conditions could very easily change. What appears "bad" genes to you now may very easily be "good" genes some time in the future. Variety is a good thing. A population of clones is more prone to extinction if conditions change.

irishlady repliedis how Hitler his thinking got started why stop at fat people how about mentally challenged short people too tall people dis-figured people the list !is endless who would be left?? U

sum1won repliedNo. Most fat people are fat because they eat too much, and don't exercise enough, and now it is out of control. Killing them won't get rid of the mindset.

If you are worried about bad dna, don't have sex with the fat people.

ੴ ਨੀਨਾ ਸਿੱਖ ਕੁੜੀ repliedNah. Obesity is not all genetics. Laziness and how much they stuff their face are also determining factors.

Hic repliedThe logic of atheistic evolutionary theory dictates that killing everyone who is genetically sick or disabled will result in the best outcome for the human race.
Why stop at embryos?
We want the fittest to survive, don't we?

Meilien repliedIt wouldn't work. Except in a tine fraction of cases people are overweight because of their diet and lifestyle, not their genes. This has been clearly demonstrated in both Japan and China where people have been very very thin for centuries but where people who have moved from a Chinese diet to a more westernized diet have become obese even though there is no history of obesity in their family.

You would do better killing the fast food franchises and the unhealthy food franchises. Killing fat people would only work in the short term, soon more people would become fat through diet and lifestyle once more.

strpwnrz replied**** you