sciencemag.org SCIENCERESEARCH
MEDICINE
From animal models
to humans
A major challenge in medi-
cal research is the translation
of results in animal models to
humans. Animal models are
essential to be able to under-
take rigorous experimentation
to understand mechanisms of
disease and therapeutic oppor-
tunities. However, disappointing
outcomes of clinical trials in
patients emphasize the difficulty
in ensuring that the data from
animal models are relevant to
human disease. In a Perspective,
Brubaker and Lauffenburger
discuss how machine-learning
strategies can aid cross-species
translation to improve outcomes
in humans, but they emphasize
that such approaches also come
with their own challenges. —GKA
Science, this issue p. 742
DEVELOPMENTAL BIOLOGY
Mapping cell fate during
hematopoiesis
Biologists have long attempted
to understand how stem and
progenitor cells in regenerating
and embryonic tissues differ-
entiate into mature cell types.
Through the use of recent techni-
cal advances to sequence the
genes expressed in thousands
of individual cells, differentiation
mechanisms are being revealed.
Weinreb et al. extended these
methods to track clones of cells
(cell families) across time. Their
approach reveals differences in
cellular gene expression as cells
progress through hematopoiesis,
which is the process of blood pro-
duction. Using machine learning,
they tested how well gene expres-
sion measurements account for
the choices that cells make. This
work reveals that a considerable
gap still exists in understanding
differentiation mechanisms, and
future methods are needed to fully
understand—and ultimately con-
trol—cell differentiation. —BAP
Science, this issue p. 755
Edited by Michael FunkALSO IN SCIENCE JOURNALS
754-B 14 FEBRUARY 2020 • VOL 367 ISSUE 6479
NEUROSCIENCE
Memory suppression
can help after trauma
Therapists have discussed for a
long time whether attempts to
voluntarily suppress the intru-
sion of trauma memories are
helpful to combat the distress-
ing impacts of trauma. Mary
et al. studied survivors of the
2015 Paris terrorist attacks who
developed posttraumatic stress
disorder and those who did not
(see the Perspective by Ersche).
Using functional magnetic reso-
nance imaging, they investigated
the neural networks underlying
the control and suppression of
memory retrieval. The results
suggest that the characteristic
symptoms of the disorder are
not related to the memory itself
but to its maladaptive control.
These results offer new insights
into the development of post-
traumatic stress disorder and
potential avenues for treatment.
—PRS
Science, this issue p. 756;
see also p. 734SOLID-STATE PHYSICS
An unusual conductance
sequence
Effects of correlations between
electrons are enhanced in
systems of reduced dimensions.
The two-dimensional interface
between two oxide materials,
lanthanum aluminate (LaAlO 3 )
and strontium titanate (SrTiO 3 ),
exhibits magnetism and
superconductivity. In even lower-
dimensional systems fabricated
in similar heterostructures,
electrons can pair without going
superconducting. Briggeman et
al. have now observed another
exotic effect in LaAlO 3 /SrTiO 3
waveguides: At certain magnetic
fields, the conductance in these
one-dimensional systems exhib-
its steps of an unconventional
sequence. To understand the
experimental data, the research-
ers used a model that accounted
for interactions betweenelectrons and found that the
phenomenology was consistent
with the formation of a series of
correlated phases characterized
by bound states of three or more
electrons. —JS
Science, this issue p. 769MATERIALS SCIENCE
Ionic elastomeric
material electronics
Wearable devices often need to
be soft or flexible, and ideally,
these properties would extend
beyond packaging material to
also include the electronics.
Some soft ionic conductors have
been made in the form of flex-
ible, stretchable, and transparent
devices, but leaks from these
materials is a concern. Kim et al.
demonstrate ionic elastomeric
diodes and transistors that
harness ionic double layers to
rectify and switch ionic currents
(see the Perspective by Gao and
Lee). This is achieved without
trapped liquids by fixing the
anions or cations to an elasto-
mer network while the other
species of ions remain mobile.
—MSL
Science, this issue p. 773;
see also p. 735TOPOLOGICAL MATTER
Controlling
the interactions
Near charge neutrality and sub-
ject to perpendicular magnetic
fields, graphene is expected
to become a ferromagnet with
edge states not unlike those in
two-dimensional topological
insulators. Observing this effect
experimentally has proven tricky
because very large magnetic
fields are needed to overcome
the effect of electron-electron
interactions, which drive the
system to competing states.
Instead of amping up the field,
Ve y r a t et al. placed their gra-
phene samples on a substrate
made out of strontium titanate,
which effectively screened theinteractions. Transport measure-
ments confirmed the formation
of the characteristic edge states.
—JS
Science, this issue p. 781DRYLAND ECOLOGY
Thresholds of aridity
Increasing aridity due to climate
change is expected to affect
multiple ecosystem structural
and functional attributes in
global drylands, which cover
~45% of the terrestrial globe.
Berdugo et al. show that increas-
ing aridity promotes thresholds
on the structure and functioning
of drylands (see the Perspective
by Hirota and Oliveira). Their
database includes 20 variables
summarizing multiple aspects
and levels of ecological orga-
nization. They found evidence
for a series of abrupt ecological
events occurring sequentially in
three phases, culminating with
a shift to low-cover ecosystems
that are nutrient- and species-
poor at high aridity values. They
estimate that more than 20% of
land surface will cross at least
one of the thresholds by 2100,
which can potentially lead to
widespread land degradation
and desertification worldwide.
—AMS
Science, this issue p. 787;
see also p. 739CARBON CYCLE
Breaking up is easy to do
Sinking particles transport
carbon to the seafloor, where
they are buried in sediments
and either provide food for
benthic organisms or seques-
ter the carbon they contain.
However, only ~30% of the
maximum flux reaches depths
of a kilometer. This loss cannot
be fully accounted for by current
measurements. Briggs et al.
used data collected by robotic
Biogeochemical-Argo floats to
quantify total mesopelagic frag-
mentation and found that this
process accounts for roughly
half of the observed flux lossPublished by AAAS