john hawks weblog

paleoanthropology, genetics and evolution

links

  • Link parade, 2

    Tue, 2012-10-23 23:43 -- John Hawks

    Ben Phelan at Slate writes about the recent evolution of lactase persistence: "The Most Spectacular Mutation in Recent Human History".

    The plot is still fuzzy, but we know a few things: The rise of civilization coincided with a strange twist in our evolutionary history. We became, in the coinage of one paleoanthropologist, “mampires” who feed on the fluids of other animals. Western civilization, which is twinned with agriculture, seems to have required milk to begin functioning. No one can say why. We know much less than we think about why we eat what we do. The puzzle is not merely academic. If we knew more, we might learn something about why our relationship to food can be so strange.

    I wanted to quote that passage because it was my friend Greg Cochran's son Roddy who coined the term "mampires", which is exceptionally clever. On the article as a whole, I think Phelan makes too much of the "mystery" aspect of the advantage of lactase persistence. There are really only two serious hypotheses and none of the possible explanations are mutually exclusive. I would have liked to see the article devote more attention to the multiple lactase persistence mutations in other populations, which together point to the very great advantage of the trait in association with dairying.

    David Dobbs writes in the New York Times about the genetics of intelligence and what we know (and don't know) about it: "If Smart Is the Norm, Stupidity Gets More Interesting". The piece emphasizes that geneticists haven't had much luck finding genes that explain the heritability of intelligence. The problem of "missing heritability" has loomed over complex trait genetics for the last several years, meaning that we can estimate the heritability of traits with twin studies and other traditional pedigree approaches, but single gene loci do not account for much of the variance of these traits. One possibility is that common genes have such small effects that they are statistically difficult to find.

    Another possibility is that very rare genes of small effect -- or new mutations -- may explain the heritability of such traits within families. The most likely reason for large-effect mutations to be rare is if they are deleterious. Across a population, this hypothesis of many rare deleterious mutations is called "genetic load":

    But in some other genetic realms we do differ widely, for example, mutational load — the number of mutations we carry. This tends to run in families, which means some of us generate and retain more mutations than others do. Among our 23,000 genes, you may carry 500 mutations while I carry 1,000.

    Most mutations have no effect. But those that do are more likely to bring harm than good, Dr. Mitchell said in an interview, because “there are simply many more ways of screwing something up than of improving it.”

    This is a nicely balanced treatment and emphasizes evolutionary approaches in an accessible way for Times readers.

    From the San Jose Mercury News, a story by Lisa Krieger: "Open-source science helps San Carlos father's genetic quest".

    One tiny flaw in one gene in one little girl. That explains why Beatrice Rienhoff, 8, is so lean and leggy.

    ...

    No one else in her family had such a syndrome. In fact, apparently no one else in the world did either.

    Rienhoff -- a biotech consultant trained in math, medicine and genetics at Harvard, Johns Hopkins and the Fred Hutchinson Cancer Research Center in Seattle -- launched a search.

    Yes, you can do this now. This father is now making transgenic mice with his daughter's mutation to better understand its effects.

    (via Gene Expression)

    Ken Weiss writes about some of the reasons a family medical history is a better predictor of individual health than genotyping: "23andLess".

    The most likely truth at this stage is that such common traits like heart disease or how tall or heavy you are, are determined by a very large number of genes, mostly with individually very small effects. Each person with the 'same' trait--each diabetic, say--has that trait for a different genetic reason. Individual genetic variants may be causal contributors, but they are not very important.

    I agree with his point...although as I was reading the post, it occurred to me that doctors treat family history as if it were much more effective than it should be, if causal variants really have small effect sizes. Complex disorders are not the same as Mendelian disorders with low penetrance. Having a grandfather with heart disease, for example, should mean substantially less to you than having a grandfather who is tall.

    Tags: 
    links
    lactase
    open science
    heritability
    personal genomics
    intelligence

  • Clearing the stack

    Sat, 2010-01-30 07:30 -- John Hawks

    The Wall Street Journal visits Inanke, Zimbabwe, to look at prehistoric cave paintings: "Magnificence on Cave Walls".

    Julien Riel-Salvatore: "Neanderthal wooden structures, sleeping areas and group size at Abric Romaní"

    Forget "Right Guard" -- positive selection on armpit odor?

    A strong positive selection in mate choice for low-odorant partners with a dysfunctional ABCC11 gene seems a plausible explanation for this striking frequency of a loss-of-function allele.

    Vitamin D receptor polymorphisms affect hepatitis infection rates?

    Peter Woit on Big Think: "The problem with trendy physicists."

    Tags: 
    links

  • Clearing the stack

    Mon, 2010-01-25 22:56 -- John Hawks

    Here are some links that have been piling up in my browser tabs this week:

    NY Times: "Scientists Find a Shared Gene in Dogs With Compulsive Behavior"

    Afarensis links the Google Books archive of Darwinism Illustrated by George Romanes (1892).

    Julien Riel-Salvatore links a new paper on projectile point dynamics by the Mythbusters.

    In the arXiv: "To Understand Congress, Just Watch the Sandpile"

    It turns out that the way a particular resolution gains support can be accurately simulated by the avalanches that occur when grains of sand are dropped onto each other to form a pile.

    Gene Expression: "Rice, alcohol and genes" reviews evidence for the origin of an adaptive ADH1B variant in China.

    The Scholarly Kitchen: "Why Hasn’t Scientific Publishing Been Disrupted Already?"

    The Dynamist links to a a 1927 film review of Metropolis by author H. G. Wells. He didn't like the movie:

    Torches are Christian, we are asked to suppose; torches are human. Torches have hearts. But electric hand-lamps are wicked, mechanical, heartless things. The bad, bad inventor uses quite a big one.

    The Wall Street Journal says that fashion trends are out. Unless you count steampunk. Maybe it's all microtrends now.

    Tags: 
    politics
    future
    psychology
    history of biology
    movies
    links
    tv
    Darwin

  • Links that won't waste your time, Jan. 27 edition

    Sun, 2008-01-27 14:17 -- John Hawks

    Stories about genetics, paleoanthropology, and other stuff have been falling this week faster than I can keep up, but happily I'm not alone. Here are some of the more interesting blog-takes on recent stuff:

    Pigment use by Neandertals

    Julien Riel-Salvatore writes about recent work by Maria Soressi and Francesco d'Errico establishing that Mousterian pigment nodules were used as crayons:

    The reason why this ongoing study is so convincing is that the authors used replicative referents that objectively establish the microscopic and rugosimetric features of blocks of coloring materials worked in different manners and with different tools. This provides an objective baseline against which to compare the characteristics of objects found in assemblages attributed to Neanderthals and to determine whether they bear evidence of having been purposefully manufactured by human action.

    I'll write more about this when I get a chance, but Julien's post is valuable and provides translated (from French) excerpts of the relevant papers.

    Genetic diversity in African cattle

    Razib writes about a New York Times Magazine article that details the cultural and economic pressures around cattle breeding in Uganda. People are bringing in Holsteins, because even though they are finicky in the African climate, they can give as much as 20 times the milk of the native Ankole cattle. The Ankole breed resembles those that American cattlemen would call "Watusi."

    Here's a passage from the article:

    Not everyone in Uganda, however, agrees that the foreign breeds are an upgrade. President Yoweri Museveni once imposed a ban on imported semen. Museveni belongs to the Bahima ethnic group. When he was a baby, in a sort of Bahima baptism ritual, his parents placed him on the back of an Ankole cow with a mock bow and arrow, as if to commit him symbolically to the defense of the family's herd. Museveni, now in his 60s, still owns the descendants of that very cow, and he retains a strong bond to the Ankole breed. Two years ago, I accompanied a group of Ugandan journalists on a daylong trip to one of the president's private ranches, where he proudly showed us his 4,000-strong herd of Ankole cattle. At one point, a reporter asked if the ranch had any Holsteins. "No, those are pollution," Museveni replied. "These," he said, referring to his Ankoles, "the genetic material is superior."

    Razib's comment on another passage:

    I guess it's nice that [the author] put quotes around [genetic] dilution, but the rest of the article suggests to me that the author hasn't internalized that genetics is discrete, and that information isn't destroyed through cross-breeding. Rather, it seems that a good program of cross-breeding could result in a superior breeds of Holstein optimally suited to the local climate. That's what happened with indigenous African lineages as they hybridized with introduced South Asian ones 2,000 years ago to produce the Ankole according to the article! This sort of piece in a widely circulated publication such as The New York Times Magazine could have been a serious examination of agricultural and quantitative genetics, and just how much we depend on these unsexy sciences to feed the world. As it is, there's a lot of hand-waving scare-mongering....

    The usual argument in favor of preserving diversity of domesticated species is as a hedge against future uncertainties like climate change or novel diseases. Another reason is to preserve local flavor -- that's why people grow "heirloom" vegetables, for instance. But it is quite certain that the pasturage devoted to traditional breeds of cattle well decline if imported breeds provide a net economic advantage. In that case, the best way to preserve diversity is cross-breeding -- which also has the direct advantage of introducing locally adapted genes into the descendants of the foreign breed.

    This is what African herders have been doing for thousands of years, as evidenced by the spread of zebu genes across the continent. These European imports are merely the newest version.

    What are genetic tests good for?

    Hsien-Hsien Lei has an invited post by Ann Turner, noted for her book, Trace Your Roots With DNA. Turner comments on the new genetic tests from deCODEme and 23andMe:

    Since I'm interested in genetic genealogy, I am more attuned to the ancestry components of the deCODEme results. The admixture results are interesting to anyone who suspects they may have ancestors from different geographical areas. The detailed chromosome graphs also show the potential for tracing segments of DNA shared with even more distant relatives. For instace, it was recently found that a block carrying a colon cancer gene could be traced back to a couple who arrived in the US in the early 1600's. This sort of thing might very well show up in the "Compare Me" feature.

    Evo-devo and its detractors

    On the subject of guest posts, Carl Zimmer is running an essay from Jerry Coyne. The essay is a response to a blog post by Olivia Judson, in which she reviewed the ideas of Richard Goldschmidt and suggested that the macromutation theory may be primed for a comeback, using recent results from evolutionary developmental biology (evo-devo) as a jumping-off point. Coyne has been one of the foremost critics of the idea that evo-devo is somehow "changing" basic conceptions in evolutionary biology.

    Unfortunately, her piece is inaccurate and irresponsible, especially for a journalist with a strong science background (Judson has a doctorate from Oxford). I've admired Judson's columns and her whimsical and informative book Dr. Tatiana's Sex Advice to All Creation. But this latest posting is simply silly. As an evolutionary biologist, I'm used to seeing our field twisted out of shape to satisfy the demands of journalists who love sensational new findings--especially if they go against long-held Darwinian beliefs like the primacy of gradual, stepwise evolution. But I'm not used to seeing one of my own colleagues whip up excitement about evolutionary biology by distorting its findings.

    I have to say I find the entire concept of a "New York Times blog" to be interesting. They have quite a lot of them now, and they are not clearly demarcated from other editorial content at the Times website. That's not a criticism, but it does mean that readers tend to think they come with the full authority of the Times' editors. To me, they read just like any other blog post anywhere, but for a picture of how people perceive their importance, just look at their comment sections.

    That was enough in this case to bring Jerry Coyne out of the woodwork. I think his slapdown is a little extreme (Remind me not to get on his bad side!). But Judson was clearly mistaken to equate today's evo-devo results with Goldschmidt's ideas -- a link that evolutionary developmental biologists themselves deny. At any rate, Coyne's forceful advocacy for his point of view makes for good reading, and I would recommend it to anybody interested in where evolutionary developmental biology is going and how it will influence our ideas about evolution over the next few years. Here at Wisconsin I am at one of evo-devo's epicenters, and I can see a number of ways that it may transform our ideas of human evolution. So in that sense, I am more sanguine than Coyne about the prospects for understanding morphological changes with developmental insights. At the same time, I agree substantially that the genetic questions must ultimately be answered in genetic terms.

    The discussion in Zimmer's comments section digresses into what Stephen Jay Gould may or may not have thought about saltational changes in evolution. I think that is essentially unenlightening, in the sense that quote-pulling out of Gould can reinforce almost any point of view.

    Tags: 
    Neandertals
    links
    evo-devo
    Darwin

  • Tracking back to acceleranistas

    Sun, 2007-12-16 21:03 -- John Hawks

    I've had a very busy couple of days, and haven't been maintaining my reading-and-linking as much as I had hoped. So I wanted to take a few minutes to do a quick tour of the blogosphere to see what people are saying about the idea of acceleration.

    I'm linking to posts I have read, and in some cases commented on. They are a mix of explanation of the concepts, applauding the ideas and analysis, and criticism of the methods. What I most want to point out is that the discussion on blogs is at a very high level -- people are reading the paper with much more precision than I have ever experienced in the peer review process. This is really the best that today's science community has to offer.

    One of the best posts is over at LiveJournal, where shoshin works through the theoretical part of the paper. Naturally, this is my favorite part -- and shoshin describes things exceptionally well. The beginning is great:

    The case for a recent acceleration of human evolution in the last 40K years (and especially the last 10K) follows pretty straightforwardly from evolutionary first principles combined with elementary facts about human history since the late Pleistocene. So straightforwardly, in fact, that you have to wonder why nobody thought of it sooner. It's one of those rare cases where the theoretical argument is so strong that you can pretty much use accordance with it as a test of experimental methods at least as much as the other way around.

    Razib works through the paper at Gene Expression, in a long, detailed post. I like this part:

    We are now the most numerous large mammal on the face of this planet. Using the data above the authors imply that our species has been subject to somewhat more that 1/2 a substitution per year. Remember, a substitution is a replacement of one allele for another at a locus on a population wide scale. If this is correct that means right now every few years alleles driven by selection are being fixed within our species.

    At the old-school Gene Expression, p-ter posts some analysis and critiques. A great comments section has arisen on this post, including comments from some of the principals, and general comments about the quality of the discussion on blogs compared to the journal process. I've answered some of the points in my rarely asked questions post, but the most powerful part bears repeating:

    Every distribution has a tail, so if they were to move their threshold a bit further to the right, surely they'd be able to narrow down the number of regions to something consistent with a constant rate. That is, the entire argument is predicated on perfectly identifying selection in the regions of the parameter space they search. This is a major assumption, and not one I'm willing to make without strong evidence. They provide none.

    Actually, with an acceleration of around two orders of magnitude, we can tolerate a lot of slop in the estimates. We don't need to perfectly identify selection -- in fact, we'd still have strong support for rapid acceleration if we threw away 95 percent of our data! Naturally, we don't have to do that -- our methods are based on a threshold that eliminates nearly all false positives, and we are missing the vast majority of events. For one thing, the LDD test doesn't find selection on multiple alleles at the same locus. I am working on new methods that will find some of these kinds of events, but for the time being we continue to interpret all things conservatively.

    Andrew Sullivan posts approvingly:

    I posted on this potentially world-changing research this afternoon. Here's a helpful, chatty, specialist blog with lots of extra links if you're scientifically literate and curious.

    What I want to know is, sure, Razib is helpful and chatty, but what am I, chopped liver?

    Larry Moran has added several posts on the research, starting with this one:

    In addition to the major flaw in logic, there are many other things wrong with the claim that modern humans have stopped evolving. The claim carries with it a very loaded assumption that is never explicitly stated. The assumption is that humans have pretty much reached their optimal level of fitness for all other characteristics. For example, we are no longer selecting for higher intelligence, or a better immune system, or more efficient energy production, or stronger muscles, or any of a host of other things that might make us better adapted to all environments.

    Why is this assumption necessary? Because nobody could possibly suggest that we have stopped evolving without assuming that we have reached optimal fitness for all those things in our present environment.

    Larry follows with several other posts, some critical, focused in part on the problem of how much evolution is explained by positive selection as opposed to other forces.

    Nature's blog, "The Great Beyond" notes the paper and the resulting discussion.

    More will follow...

    Tags: 
    natural selection
    links
    acceleration
    Late Pleistocene

  • Links that won't waste your time, Oct. 29 edition

    Mon, 2007-10-29 15:10 -- John Hawks

    Am I really going to wait a week to write about the red-haired Neandertals? No, not quite -- but I'm taking some time to add detail to the story. Meanwhile, here are some of the things I've been reading this weekend around the web:

    Some Ebola phylogeography

    I've written about Ebola in gorillas and chimpanzees a few times here. Now, Tara Smith describes how genetic analyses of the strains that have killed these primates are adding to our knowledge of the disease's biology and spread:

    Over a 5 year time period, researchers found 47 dead animals in the Gabon/Republic of Congo region--17 of these were determined to be infected with Ebola-Zaire. Using the polymerase chain reaction, they were able to amplify portions of the glycoprotein gene (GP) from 6 gorillas and a chimpanzee, and compare the sequences to those previously identified in humans. When they compared the sequence to other EBO-Z GP sequences published to date, they found that these new genes were divergent enough to constitute a new group within the EBO-Z subtype--and that recent human cases from the Republic of Congo during the same time frame also fit into this new group (designated group B; the previous identified groups were group A, which included sequences from the 1976 outbreak and several outbreaks in the mid-1990s, and group R, from outbreaks between 2001-3).

    A long post with a review of the recent literature and a lot of details about the virus. Animal-human (zoonotic) pathogen transfer is one of Smith's research topics, and she covers the bases very well.

    Nature Conservancy and the Adirondacks

    The New York Times has an article discussing the recent purchase of a 161,000-acre tract of the Adirondacks by the Nature Conservancy. The details of the purchase require continued low-intensity logging to supply a paper mill, and the organization will have to sell some parcels to finance the deal.

    Naturally, there are conflicting opinions about what should be done with the land.

    [T]he most intense pressure is coming from local communities, environmental organizations and special interest groups, all clamoring to stake their interest in the property. Mr. Carr's list of petitioners is long: raft guides, float plane pilots, hunting clubs, loggers, hikers, school superintendents, buffalo ranchers and municipal golf course operators looking to expand. "Mike Carr has created a five-year nightmare for himself in trying to decide how to unload this property," said John Sheehan, spokesman for the Adirondack Council, a nonprofit environmental organization. The impact of those decisions on the Adirondacks and the people who live, work and play there, he said, will be immeasurable.

    I have a soft spot for the Nature Conservancy because of their role in preserving tallgrass prairie, but the organization has a lot of critics because of its accommodation to economic pressures. This is an even discussion of the economic and social conflicts facing the organization now that this deal has gone through.

    Autumn colors

    We've been enjoying some of the autumn colors here during the last couple of weeks. Every year around this time, you see stories about why leaves turn colors. I'll point you to Larry Moran's relatively short explanation, which keys in on both the mechanisms that time leaf senescence and, in this passage, its biochemical consequences:

    It has to do with senescence. In the autumn the leaves of deciduous trees fall off the tree to prepare for winter. As the leaves die, the tree attempts to salvage as much nitrogen and carbohydrate as it can. While the photosynthetic apparatus is winding down it is more likely to produce free radicals and oxidative damage. To prevent excess damage the leaves produce pigment molecules that block some of the light and reduce levels of photosynthesis. Red pigments, such as anthocyanins are especially effective (Feild et al. 2002).

    He also notes that the availability of nitrogen in the soil influences coloration, which along with species abundances helps to explain why some forests are especially gorgeous this time of year.

    Sell your DNA?

    If you're interested in DNA patents, biomedical research, and privacy interests, you could do worse than reading this post at Eye on DNA.

    Shellfish and ochre

    Julien Riel-Salvatore considers some thoughts emerging from the Pinnacle Point paper by Curtis Marean and colleagues:

    By and large, what most strikes me about the paper is the discussion of a "behavioral package" that comprises coastal living, shellfish exploitation, ochre use and bladelet production. These elements are unquestionably all there at PP13B, but their varying representation across the LC-MSA stratigraphy strongly suggests that they were far from indissociable in evolutionary time, and this even at a single locale. Interestingly, this very fact emphasizes how dynamic the MSA appears to have been as a form of behavioral adaptation, even in its comparatively early phases. This contrasts with some views of the MSA as a single 'thing' across space and time. That said, it also raises the issue of whether we are, in fact dealing with a discrete "package" and of what elements are its essential features, for lack of a better term. I think that we still have some way to go in highlighting what the advantages provided by each of these different behaviors was, especially in different situational contexts, but it is very intriguing to first find them in association when the coast first appears to become more or less permanently occupied.

    This is the missing element in a lot of the Neandertal coverage of the past couple of weeks. As we discover elements of the ancient European genetic package that compare with modern humans in various ways, we are left to consider exactly what is different or unique about the MSA African behavioral evidence.

    Tim Jones at Remote Central comes up with a more critical view of the behavioral evidence, noting that much of the habitable coastline of the world more than 150,000 years old is now underwater.

    I have been formulating some of my own thoughts (believe it or not, the MSA paper has occupied a lot more of my attention than the Neandertal ones!), and I'll see if I can get them out in the next few days.

    In the meantime, read Julien's take, and his previous post may be worthwhile for Tom Tomorrow fans.

    More on charities

    Dave and Greta at Cognitive Daily polled their readers to find out which charity fundraising methods are most effective. (They're trying to raise money for the Donor Choose campaign). Matching funds work the best to motivate potential donors, according to their polling. Then there's this:

    We asked respondents to report their income, so we could then correlate income with the various incentives for giving. We found no significant correlations except in two areas. There was a moderate positive correlation (r=.27) between income and the amount a person donates the first time they give to a charity. There was a small negative correlation (r=-.16) between income and the amount people would pay for candy in charity fundraisers. Apparently you'd be better off selling candy bars for charity in a lower-income neighborhood than in a wealthy neighborhood.

    This reminds me of the Arthur, where they're all selling candy bars for their school band, and Buster eats them all himself in a fit of crazed chocoholism. By the way, Googling "Chocolate Fundraiser" is a scary, scary experience. Not as scary as Ebola, but scary.

    Tags: 
    Neandertals
    links
    MSA

  • Links that won't waste your time, Sept. 17 edition

    Mon, 2007-09-17 09:25 -- John Hawks

    Gene Expression contributor p-ter expresses his (un)excitement about the Ventrome:

    In terms of haplotype reconstruction, the authors make a number of dubious claims about the importance of their advances. It is not true, as stated in the introduction, that genome-wide association studies rely on phased haplotypes for analysis. In fact, most of the ones I have seen do nothing more than simply count up genotypes at each SNP in cases and controls and perform a chi-squared test. In most cases, haplotype-level analyses is simply not done. This may change in the future, of course, but it's difficult to see how what they've done (note they aren't even able to make ideal haplotype inference with the data) is that exciting.

    Personally I can't understand why people are calling it the "Craigome". I suppose that's supposed to go along with the "personalized" medicine part. If it's personal, it must use your first name! That should give aid and comfort to the telemarketers, I suppose -- or maybe the genome muckety-mucks have been deploying cameras on the hucksters' sidelines!

    Then again, somebody has surely thought it through. Maybe it's about Watson -- the "Watsonome" sounds like some kind of assisted living arrangement. Oooh -- you know George Church is next! I've got "Georgeome" on my mind!

    Horsing around

    Meanwhile, Brian Switek of Laelaps tells the changing story of horse evolution. This is a great article full of references and classic reconstructions of horse phylogeny, and Switek reviews some classics:

    The 1966 edition of Romer's Vertebrate Paleontology fairs better overall, but is still found wanting. The same straight-line illustration I just mentioned is found in the section treating perissodactyls as a group, and the skeletons of Eohippus, Mesohippus, and Hippidion are shown left to right across pages 266 and 267. While the text does mention an overall diversity of forms, as well as using certain genera for the "type" from which modern horses evolved, the overall visual impression of simple anagenesis remains. Again, I doubt the casual reader picked up Romer's book for light nightly reading, but it is strange that the progressive ideas about evolution during that time are so poorly represented.

    The versions of horse phylogeny from the 1970s and 1980s bear a strong resemblance to various hominid phylogenies that have emerged in the last 20 years. The theme of the essay is how the original unilineal picture of horse evolution became the current "bushy" version, and it's a good account. As for hominids --- well, keep in mind that the bushy horse phylogeny extends back to the Eocene. Horse phylogeny in the Pliocene and Pleistocene is not exactly a fractal version of the larger picture. Still, there were speciations of Equus during this time period, including the current diversity and some extinct horses.

    Guts and sex

    Carl Zimmer puts together three recent stories about gene duplications, including the human amylase-diet connection. I'll be posting on that one later this week, and Zimmer's account of erstwhile digestive proteins in the reproductive tracts of female Drosophila is a fascinating addition:

    As gene copies build up in a genome, some of them can take on new jobs. And here is where the fly sex comes in. In some species of Drosophila flies, the males and females wage a biochemical war of the sexes. The males can boost their reproductive success by manipulating their female mates. They do so with a cocktail of chemicals mixed into their seminal fluid. Some of the chemiicals stimulate the production of eggs, some chemicals create a big mass in the reproductive tract that may make it harder for a female fly to mate with another male. Females produce chemicals of their own to counteract the male chemicals. You'd expect that mutations that gave either the male or the female an edge in this arms race would be strongly favored. And in the August issue of PLOS Genetics, scientists published a list of female reproductive proteins that show strong signs of natural selection. A dozen of these proteins are proteases--they are good at slicing other proteins apart. The flies only make these proteases in their reproductive tract, and yet the proteins are not closely related to other proteins made in the reproductive tract. Instead, their closest relatives are families of proteases that the flies make in their guts in order to digest food.

    OK, maybe fascinating isn't the right word. I guess it depends how close you are to lunchtime. Or bedtime. Ewww.

    "Previvors'" tales

    Amy Harmon in the New York Times writes the story of breast cancer "previvors," women who have tested positive for one or more risk mutations, and must choose whether to take preventative measures such as prophylactic surgery:

    Her father, who once feared he would lose his wife to cancer, encouraged the surgery. Her sister reminded her that cancer might be cured in a few years if she could wait.

    Her aunt said she hated to see her niece embrace a course of action akin to "leechings of the Dark Ages." A cousin declined even to take the DNA test.

    The article is illustrated by a pedigree that shows the affected family members. In this form, you can really sense the feeling of dread, seeing four generations of women ticked off the chart.

    EyeOnDNA asks about the effects of the new BRCA1 and BRCA2 tests, which are intended to inform people of their carrier status for breast cancer susceptibility alleles:

    This past week we saw the unveiling of a controversial general advertising campaign for the Myriad BRACAnalysis genetic test for breast and ovarian cancer susceptibility. One oft-quoted statistic in relation to the test states that "only 30,000 of more than 250,000 American women estimated to carry a mutation in BRCA1 or a related gene, BRCA2, have so far been tested." Myriad hopes to increase the number of mutation carriers detected. But what kind of counseling and support will women receive if they test positive? (emphasis in original)

    Hsien puts the question in context by referencing Harmon's account.

    Tags: 
    links
    Pliocene
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Neandertals

For years, I've worked on their bones. Now I'm working on their genes. Read more about the science studying these ancient people.

Denisova

From a finger bone of an ancient human came the record of a completely unexpected population. My lab is working on the science of the Denisova genome.

Acceleration

The advent of agriculture caused natural selection to speed up greatly in humans. We're uncovering some of the ways that populations have rapidly changed during the last 10,000 years.

Malapa

Just outside Johannesburg, the Malapa site is producing some of the most exciting finds in human evolution. This site is the headquarters of the Malapa Soft Tissue Project.