Immigrant Rights News ‹ Mon, August 11, 2008

Immigrant Rights News — Mon, August 11, 2008

1. Politico.com: “Push needed for immigration reform”
http://www.politico.com/news/stories/0808/12321.html

2. Scientific American Magazine: “The Migration History of Humans: DNA Study Traces Human Origins Across the Continents”
http://www.sciam.com/article.cfm?id=the-migration-history-of-humans&sc=WR_20080708


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Politico.com
http://www.politico.com/news/stories/0808/12321.html

Push needed for immigration reform

By: Gebe Martinez
August 6, 2008 09:34 AM EST

The physical and emotional pain of dozens of immigrants and their
children was palpable recently when a congressional delegation walked
into a room at St. Bridget's Catholic Church in Postville, Iowa.

The town still suffers almost three months after 389 immigrants were
arrested at a local meat processing plant and then detained at a
cattle exhibit hall. At this meeting with three members of the
Congressional Hispanic Caucus, their stories of inhumane treatment at
work and legal injustices after the arrests came tumbling out.

There was a 16-year-old who worked on the kill floor of the plant -
he was under the legal age limit for the job - who labored 17-hour
shifts, six days a week, without overtime. There was a man who had
lost his hand. There were women who were sexually exploited if they
wanted a shift change.

In May, hundreds of federal agents stormed into the Agriprocessors
Inc. plant, rounded up workers like cattle and chuted them through a
pre-scripted legal process that cut off their legal rights to defend
themselves against unusually harsh felony "aggravated identity theft"
charges. Families are separated and women are wearing electronic
homing bracelets pending the conclusions of their cases.

After meeting with the immigrants, Rep. Luis V. Gutierrez (D-Ill.)
had a question for presumptive Republican presidential nominee John
McCain, the Arizona senator who once worked on Gutierrez's
comprehensive immigration reform plan.

"Is this his 'enforcement only' plan?" Gutierrez asked chidingly.
"How many more years of this do we have to have before we have
comprehensive [reform]? How many more Postvilles do we have to have?"

Of course, Gutierrez backs Democrat Barack Obama for president, but
he also was disappointed last year when McCain stepped back from the
broad immigration plan they had collaborated on and began insisting
that "border security" must come first.

But the questions should be posed, not only to McCain, but to others
who have failed to step up and lead.

Obama needs to be pressed on immediate immigration fixes, and so does
the Democratic Congress, which has refused to take up a big reform
package until next year at the earliest.

And do not forget President Bush, who once stood for the
comprehensive immigration plan until it failed last year in the
Senate. Now, as Bush's lame duck presidency limps to an end, he has
turned his back to Postville while reserving his compassion for oil
companies.

It is highly unlikely that Bush will grant Gutierrez's request for a
moratorium on immigration raids until a better solution is in place.

"You know who is in charge now? The Gestapo agents at [the Department
of] Homeland Security. They are in charge," Gutierrez said. "I think
it is election season, and they have decided it did not work for us
one way [with comprehensive reform], so let's try to exploit it
politically another way" through harsh enforcement.

Enforcement only, without also figuring out how to legalize 12
million undocumented immigrants in the country or refining the rules
for employers who hire illegal immigrants, is exactly what
conservatives want in this election year.

The Center for Immigration Studies, which favors strict limits on
legal and illegal immigration, recently concluded that, in addition
to a sinking economy, "increased enforcement seems to have played a
significant role" in reducing the illegal immigrant population over a
nine-month period ending in May.

The accuracy of the center's calculations were highly criticized by
immigrant advocates, but the center stuck to its argument that
"muscular enforcement" can "induce" illegal residents to return to
their home countries.

Heeding the criticism that immigration enforcers have unnecessarily
disrupted families, U.S. Immigration and Customs Enforcement is
testing a 17-day program in five cities that asks 457,000
non-criminal illegal immigrants who ignored deportation orders to
turn themselves in. Coordinating their departures with ICE will "ease
their transition and minimize the impact of their removal on their
loved ones," the agency said.

Legal family members of the illegal immigrants are invited to leave
the country as well.

The plan would be laughable if the issue were not so serious, said
Frank Sharry, executive director of America's Voice, which wants an
overhaul of immigration laws that combines tougher enforcement with
expanded visa programs and earned legalization.

"Call me crazy, but I doubt that [test program] sends the message to
Latino voters that the Republican Party understands the complexity of
this issue and supports practical solutions," Sharry said, referring
to the competition for the Latino vote in the November election.

Postville is the poster board for the broken immigration system.

The federal government's chase of illegal immigrants at the meat
plant disrupted a Labor Department probe into unfair work and wage
practices by the owners. Critics have accused ICE of being more
aggressive about prosecuting minor immigration violations than
punishing employers.

Last week, the American Civil Liberties Union found a government
"manual" given to lawyers assigned to defend the workers. The package
included scripts for plea and sentencing hearings, which the ACLU
said resulted in undermining the immigrants' ability to understand
the charges against them and receive full hearings.

Filled with fear, most of those arrested agreed to waive their
rights, plead guilty to lesser charges and spend five months in
prison before being deported. The alternative was to spend at least
six months in jail while waiting for a trial, risk being sentenced to
at least two years in prison, and still be deported.

Gutierrez likened the process to indicting a person for murder
without any evidence. In this case, where many are claiming innocence
of the identity theft charges, "we prosecuted the people we should be
protecting. It corrupts our judicial system and it undermines our
values."

While Democrats plan to hold a congressional hearing in Postville
next month, efforts also are underway on incremental measures to help
legal immigrant workers and their employers.

Fixes to the E-Verify electronic employment verification system were
approved by the House last week.

Rep. Mike Honda (D-Calif.) and Sen. Hillary Rodham Clinton (D-N.Y.)
also proposed a new bill that would invest federal dollars in English
literacy and civics programs for adults and school children and give
a 20 percent tax credit to employers who provide English and GED
instruction.

The point of the bipartisan-backed bill is to promote immigrants'
desires to integrate in American society rather than focus on
"English-only" and other aspects of the immigration debate that fuel
rancor, said Peter Zamora of the Mexican American Legal Defense and
Educational Fund.

"There's hot air fatigue. Members [of Congress] now recognize they
were elected to get something done, not just fulminate about a class
of people," Zamora said.

Maybe. But nothing will be done before the November elections, and
not soon enough for the people in Postville.

Gebe Martinez is a longtime journalist in Washington and a frequent
lecturer and commentator on the policy and politics of Capitol Hill.

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Scientific American Magazine -  July 7, 2008
http://www.sciam.com/article.cfm?id=the-migration-history-of-humans&sc=WR_20080708

The Migration History of Humans:
DNA Study Traces Human Origins Across the Continents

DNA furnishes an ever clearer picture of the multimillennial trek
from Africa all the way to the tip of South America

By Gary Stix

A development company controlled by Osama bin Laden’s half brother revealed last year that it wants to build a bridge that will span the Bab el Mandeb, the outlet of the Red Sea to the Indian Ocean. If this ambitious project is ever realized, the throngs of African pilgrims who traverse one of the longest bridges in the world on a journey to Mecca would pass hundreds of feet above the probable route of the most memorable journey in human history. Fifty or sixty thousand years ago a small band of Africans—a few hundred or even several thousand—crossed the strait in tiny boats, never to return.

The reason they left their homeland in eastern Africa is not completely understood. Perhaps the climate changed, or once abundant shellfish stocks vanished. But some things are fairly certain. Those first trekkers out of Africa brought with them the physical and behavioral traits—the large brains and the capacity for language—that characterize fully modern humans. From their bivouac on the Asian continent in what is now Yemen, they set out on a decamillennial journey that spanned continents and land bridges and reached all the way to Tierra del Fuego, at the bottom of South America.

Scientists, of course, have gained insight into these wanderings because of the fossilized bones or spearheads laboriously uncovered and stored in collections. But ancestral hand-me-downs are often too scant to provide a complete picture of this remote history. In the past 20 years population geneticists have begun to fill in gaps in the paleoanthropological record by fashioning a genetic bread-crumb trail of the earliest migrations by modern humans.

Almost all our DNA—99.9 percent of the three billion “letters,” or nucleotides, that make up the human genome—is the same from person to person. But interwoven in that last 0.1 percent are telltale differences. A comparison among, say, East Africans and Native Americans can yield vital clues to human ancestry and to the inexorable progression of colonizations from continent to continent. Until recent years, DNA passed down only from fathers to sons or from mothers to their children has served as the equivalent of fossilized footprints for geneticists. The newest research lets scientists adjust their focus, widening the field of view beyond a few isolated stretches of DNA to inspect hundreds of thousands of nucleotides scattered throughout the whole genome.

Scanning broadly has produced global migratory maps of unprecedented resolution, some of which have been published only during recent months. The research provides an endorsement of modern human origins in Africa and shows how that continent served as a reservoir of genetic diversity that trickled out to the rest of the world. A genetic family tree that begins with the San people of Africa at its root ends with South American Indians and Pacific Islanders on its youngest-growing branches.

The study of human genetic variation—a kind of historical Global Positioning System—goes back to World War I, when two physicians working in the Greek city of Thessaloníki found that soldiers garrisoned there had a differing incidence of a given blood group depending on their nationality. Beginning in the 1950s, Luigi Luca Cavalli-Sforza started formalizing the study of genetic differences among populations by examining distinct blood group proteins. Variations in proteins reflect differences in the genes that encode them.

Then, in 1987, Rebecca L. Cann and Allan C. Wilson of the University of California, Berkeley, published a groundbreaking paper based on analyzing the DNA of mitochondria, the cell’s energy-producing organelles, which are passed down through the maternal line. They reported that humans from different populations all descended from a single female in Africa who lived about 200,000 years ago—a finding that immediately made headlines trumpeting the discovery of the “Mitochondrial Eve.” (Despite the Biblical allusion, this Eve was not the first woman: her lineage, though, is all that has survived.)

All about Eve

The fast, relatively predictable rate of “neutral” mitochondrial mutations—ones that are neither beneficial nor harmful—lets the organelles operate as molecular clocks. Counting the differences in the number of mutations (ticks of the clock) between two groups, or lineages, allows a researcher to construct a genetic tree that tracks back to a common ancestor—Mitochondrial Eve or another woman who founded a new lineage. Comparison of the ages of the lineages from different regions permits the building of a timeline of human migrations.

Since 1987 the data bank on human diversity has broadened to encompass the Y chromosome—the sex chromosome passed down only by males to their sons. The male-transmitted DNA carries many more nucleotides than mitochondrial DNA does (tens of millions, as opposed to just 16,000), enhancing investigators’ ability to distinguish one population from another. Analyzing mitochondrial and Y chromosome DNA from human populations has turned up hundreds of genetic markers (DNA sites having identifiable mutations specific to particular lineages).

The route humans took from Africa to the Americas over the course of tens of thousands of years can now be tracked on the map as if the travelers were moving, albeit extremely slowly, on a series of interconnected superhighways. Alphanumeric route signs, such as I-95, can be recast as alphanumeric genetic markers. In the case of the Y chromosome, for instance, cross the Bab el Mandeb on highway (genetic marker) M168, which becomes M89 when heading north through the Arabian Peninsula. Make a right at M9 and set out toward Mesopotamia and beyond. Once reaching an area north of the Hindu Kush, turn left onto M45. In Siberia, go right and follow M242 until it eventually traverses the land bridge to Alaska. Pick up M3 and proceed to South America.

Mitochondrial DNA and the Y chromosome remain powerful analytical instruments. The National Geographic Society, IBM and the Waitt Family Foundation have joined in a privately funded $40-million collaboration through 2010, research that is primarily devoted to using these tools. With the help of 10 regional academic institutions, the so-called Genographic Project is gathering DNA from up to 100,000 indigenous people worldwide. “What we’re focusing on is the details of how people made the journeys,” says Spencer Wells, who heads the project. In a recent report its researchers found that the Khoisan people of southern Africa remained genetically separate from other Africans for 100,000 years. In another study, they demonstrated that some of the gene pool of Lebanese men can be traced to Christian Crusaders and Muslims from the Arabian Peninsula.

Power Tools

Genetic researchers have sampled the DNA of many people living along the migratory routes they have discovered. Yet the seeming certainty of the data sometimes deceives. Scientists who study human origins still would prefer a fossil they can hold in their hands over a genealogical tree. DNA differs from the radioactive isotopes used to date fossils. The rate of mutation can fluctuate from one stretch of DNA to another.

But paleoanthropologists are in a fix. Fossil remains are rare and too often incomplete. The earliest migration from Africa to Australia shows up in mitochondrial and Y genetic material (thanks to Andaman Islanders, among others), but the physical artifacts are largely missing along the route.

The answer to the absence of stones and bones: more DNA, from wherever. To bolster the case for genetics, researchers have looked to microbes that have hitched a ride on humans, inspecting their genes to look for similar patterns of migration. Freeloaders include bacteria, viruses and even lice. Besides microorganisms, the Human Genome Project and related efforts to look across the expanse of whole genomes have yielded a set of power tools that are helping to compensate for deficiencies in genetic methods. “You can look at so many different places in the genome from many individuals and in many populations to achieve more statistical power in testing different hypotheses,” says Tim Weaver, a professor of anthropology at the University of California, Davis.

During this decade, researchers have made dramatic discoveries by simultaneously comparing a multitude of variable, or polymorphic, sites interspersed throughout the genome’s three billion nucleotides. The first whole-genome studies earlier in this decade looked at differences among populations in short repetitive stretches of DNA known as microsatellites. More recently, the scope afforded by whole-genome scans has widened further. In February two papers, one in Science, the other in Nature, reported the largest surveys to date of human diversity. Both examined more than 500,000 single nucleotide polymorphisms (SNPs)—swaps of one nucleotide for another at a particular spot in the DNA—from the Human Genome Diversity Panel. These cell lines were drawn from about 1,000 individuals from 51 populations worldwide and are maintained by the Center for the Study of Human Polymorphisms in Paris.

The two research teams analyzed the wealth of data in various ways. They compared SNPs directly among distinct populations. They also looked at haplotypes, blocks of DNA containing numerous SNPs that are inherited intact through many generations. The group that wrote the Nature paper also explored a new technique for surveying human variation by comparing repetitions or deletions of DNA stretches of up to 1,000,000 nucleotides long (copy number variations) throughout a person’s genome, consistent with the larger trend to mine the genome for ever more markers of variation. “Any one piece of the genome will have a history that doesn’t necessarily reflect the ancestry of the genome as a whole,” says Noah A. Rosenberg of the University of Michigan at Ann Arbor and lead author of the Nature paper. But looking at many areas at once, he explains, can overcome that problem: “With thousands of markers, it’s possible to determine the overall story of human migrations.”

Looking at hundreds of thousands of SNPs allowed the researchers to resolve the identities of individual populations—and to see how genetically close relations spread far and wide. Native South American ancestry was tracked back to Siberians and some other Asians. The Han people, China’s principle ethnic group, has distinct northern and southern populations. Bedouins are related to groups from Europe and Pakistan as well as the Middle East.

The findings, which jibed with previous research from anthropology, archaeology, linguistics and biology (including previous mitochondrial and Y DNA studies), also provided a broader statistical foundation for the out-of-Africa hypothesis, supporting the idea that a small population of humans moved out of the continent, then grew in size in a new home until another subgroup of “founders” broke off and moved away—a process that repeated itself until the entire world was settled. These wayfarers edged out archaic human populations—Homo neanderthalensis and Homo erectus—with little or no interbreeding when they met. The new DNA work indicates that each time a smaller group split off, it carried only a subset of the genetic diversity originally present in the African population. So as distance (and time) removed from Africa lengthens, diversity diminishes, providing a means to follow population movements. Native Americans, sojourners on the last major continental migrations, have much less variety in their genomes than Africans do.

Many scientists believe that the weight of evidence, now backed by large statistical analyses such as the ones in Science and Nature, gives the out-of-Africa proponents a clear edge in a long-running debate over human origins. The multiregional hypothesis—a competitor to the out-of-Africa one—argues that populations that descended from archaics, such as H. erectus, evolved over the past 1.8 million years in Africa, Europe and Asia, and gradually emerged as Homo sapiens. Occasional interbreeding ensured that the groups did not split off into separate species.

Few scientists still hold a banner for a strict interpretation of multiregionalism. But modified versions still circulate, mostly as attempts to pinpoint whether H. sapiens bear genetic signatures of our encounters with hominid cousins. Vinayak Eswaran of the Indian Institute of Technology, aided by Henry C. Harpending and Alan R. Rogers of the University of Utah, came up with a set of simulations in recent years that suggest that after humans migrated out of Africa they interbred extensively with archaic species such as H. erectus. Eswaran’s model suggests that as much as 80 percent of the modern human genome may have been subject to the effects of this kind of interbreeding.

The genetic imprint is not as visible as might be expected if interbreeding occurred, but Harpending offers an explanation. A set of beneficial genes carried by African emigrants, perhaps ones that assisted in childbearing, brought a selective advantage that eventually blotted out the signature of some archaic genes. “The result is that the population seems more closely related to the [African] source population of the favored genes than it really is,” he says.

Are We Part Neandertal?

Eswaran and Harpending are not the only ones suggesting the possibility of interspecies trysts. Some fossilized skeletal remains of H. sapiens have features reminiscent of earlier hominids, and the genetic record of contemporary humans has also provided fuel for discussion.

According to the tree diagrams that document genetic lineages, some gene variants show “deep ancestry”—they are much older than they should be if humans evolved from a single homogeneous group no more than 200,000 years ago; a hint of possible interbreeding. In one study that drew attention in 2006, Bruce T. Lahn of the University of Chicago and his colleagues reported that a version of the Microcephalin gene, which is involved in regulating brain size, contains a haplotype that may have been passed on during an encounter with Neandertals 40,000 years ago.

A more definitive answer may arrive within the next 12 months. The Neandertal Genome Project—a collaboration of the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany, and 454 Life Sciences, a Connecticut-based sequencing company—is scheduled by the end of this year to have finished a rough draft of some 70 percent of the sequences of DNA from 40,000-year-old Neandertal bones from a Croatian cave. Its results are expected to be published about six months later.

So far the project has unearthed no sign of any genetic pattern that would suggest DNA transfer between the two hominid lineages. “We see no evidence of that, but we can’t exclude it,” says Svante Pääbo, the Max Planck professor who heads the project. An earlier publication by his group that surveyed one million nucleotides, a minuscule fraction of the whole genome, suggested that some gene exchange might have occurred, but the result was later found to have been a false signal because of sample contamination. The researchers have not yet encountered the Microcephalin variant cited by Lahn.

Handling or even breathing on a sample remains an impediment to working with ancient DNA: some anthropologists wrap themselves in the clean-room “bunny suits” used in microchip factories when they head to the field on a dig. Since that initial paper, Pääbo’s laboratory has altered the procedures used in the clean room at Max Planck. Researchers place tags made up of four nucleotides of synthetic DNA at the beginning of each strand of Neandertal genetic material. Each strand that exits the sequencing machine goes through a molecular identity check.

An understanding of the genetic makeup of the closest cousin in the human line—estimates from previous studies show that the two genomes are about 99.5 percent alike—could provide the most incisive exercise to date in comparative genomics, allowing identification of sites in the human genome where interbreeding took its course and where natural selection favored certain traits. “I think if you’re interested in human evolution, Neandertals are the unique thing,” Pääbo says. “They are our closest relatives. You can access their genomes, even though it’s technically difficult. But for most other ancestral human groups, that will not be possible.”

New, still unpublished work reveals that the Neandertal Y chromosome differs from the human one. “No human man has a Y chromosome like that of the Neandertal,” Pääbo observes, mirroring earlier results showing that human and Neandertal mitochondrial DNA also are readily distinguishable. Last November Pääbo and his team did report one similarity between the two hominids. Neandertal remains from Spain had a version of a gene known as FOXP2 that is identical to one in humans that is involved with the development of speech and language. Again, speculation emerged in a paper by a separate group in April about whether the gene could have resulted from interbreeding, although the possibility of contamination could not be discounted.

How Have We Adapted?

As researchers continue sequencing DNA from shards of old bone to explore whether humans mated with other species of the genus Homo, other investigators are applying genome-wide analyses of DNA to see which genetically controlled traits changed through genetic drift (random mutations) and natural selection as migrants adapted to their new homes.

A study published in February in Nature showed the consequences of the declining genetic diversity as humans left Africa. The project compared 40,000 SNPs from a group of 20 European-Americans and 15 African-Americans. It found that the European-Americans had a higher proportion of harmful genetic changes, ones potentially related to disease, than the African-Americans did, although the authors refrained from speculation about any specific health effects. The research shows what lead scientist Carlos D. Bustamante called a “population genetic echo” of Europe’s founding. The low genetic diversity of Europe’s small initial population permitted a set of harmful mutations to disperse widely and new harmful ones to emerge when the numbers of people began to grow. Natural selection has not yet had time to remove deleterious changes.

Genome-wide research is also starting to furnish a panoramic picture of how natural selection helped migrants adapt to new environs. A spate of studies in the past two years have  looked for genetic alterations that have occurred since humans left Africa or took up agriculture and that appear to have been useful for surviving in novel circumstances. Genetic prospectors mined the International HapMap, a catalogue of haplotypes and the 3.9 million SNPs contained therein from North Americans with ancestry in northwestern Europe and from individuals sampled in Nigeria, China and Japan.

One study, co-authored by Harpending, showed that the rate of change of DNA, and thus the pace of evolution, has accelerated over the past 40,000 years. Another by Pardis C. Sabeti of the Broad Institute in Cambridge, Mass., and her colleagues indicated that hundreds of regions of the genome are still undergoing selection, including areas that govern resistance to disease and the development of skin color, and hair follicles, which  regulate sweat. Such findings imply that human populations are continuing to adapt to regional differences in sun exposure, foods and pathogens they encountered when they left their ancestral African home. And Africans have also evolved as their environs changed.

One of the most recent studies, led by Lluis Quintana-Murci of the Pasteur Institute in Paris, showed that 580 genes, including ones that play a role in diabetes, obesity and hypertension, are undergoing selection differently among the HapMap populations, perhaps explaining geographical differences in disease patterns and providing clues to new targets for developing drugs.

Consideration of the processes underlying human diversity sometimes moves beyond the dimensions of hair follicles and the ability to digest milk. Debate over what constitutes race and ethnicity can quickly enter the picture. What does it mean if a gene variant related to cognition is found more in Europeans than in Africans? Better public understanding of genetics—that a single gene does not act like a light switch that toggles between intelligence and doltishness—may quell misguided speculations.

Genetic literacy will let a term like “Asian” or “Chinese” be replaced by more subtle classifications based on the differences in ancestral genetic makeup found in recent genome-wide scans, such as the distinction between China’s southern and northern Han groups. “There is no race,” Quintana-Murci says. “What we see [from the standpoint of genetics] is geographical gradients. There are no sharp differences between Europeans and Asians. From Ireland to Japan, there is no sharp boundary where something has changed completely.”

The journey through evolutionary history set in place by comparative genomics is still starting. In the meantime, the hunger for more data and more powerful computers and algorithms knows no limits. Amassing larger databases—an international consortium announced in January its intention to sequence 1,000 genomes from various regional populations—will let researchers run ever more realistic simulations of alternative models of human evolution and weigh the probabilities of each one, yielding the best picture yet of who we are and where we came from.

Note: This story was originally published with the title, "Traces of a Distant Past".

--
Arnoldo Garcia
National Network for Immigrant and Refugee Rights
Red Nacional Pro Derechos Inmigrantes y Refugiados
310 8th Street Suite 303
Oakland, CA 94607
Tel (510) 465-1984 ext. 305
Fax (510) 465-1885
Email: agarcia@nnirr.org
www.nnirr.blogspot.com
www.nnirr.org