Journal of Experimental Botany,
Год журнала:
2021,
Номер
72(18), С. 6123 - 6139
Опубликована: Июнь 10, 2021
To
match
predicted
population
growth,
annual
food
production
should
be
doubled
by
2050.
This
is
not
achievable
current
agronomical
and
breeding
practices,
due
to
the
impact
of
climate
changes
associated
abiotic
stresses
on
agricultural
systems.
Here,
we
analyze
global
trends
crop
productivity
show
that
overall
loss
in
from
climate-driven
may
exceed
US$170
billion
year-1
represents
a
major
threat
security.
We
also
stress
tolerance
had
been
present
wild
progenitors
modern
crops
but
was
lost
during
their
domestication.
argue
for
shift
our
paradigm
breeding,
focusing
resilience,
call
broader
use
relatives
as
tool
this
process.
that,
while
molecular
tools
are
currently
place
harness
potential
climate-resilient
genes
relatives,
complex
polygenic
nature
traits
remains
bottleneck
Future
research
efforts
focused
only
finding
appropriate
development
efficient
cell-based
high-throughput
phenotyping
platforms
allowing
assessment
planta
operation
key
genes.
Nature Genetics,
Год журнала:
2018,
Номер
50(11), С. 1565 - 1573
Опубликована: Окт. 8, 2018
Modern
sugarcanes
are
polyploid
interspecific
hybrids,
combining
high
sugar
content
from
Saccharum
officinarum
with
hardiness,
disease
resistance
and
ratooning
of
spontaneum.
Sequencing
a
haploid
S.
spontaneum,
AP85-441,
facilitated
the
assembly
32
pseudo-chromosomes
comprising
8
homologous
groups
4
members
each,
bearing
35,525
genes
alleles
defined.
The
reduction
basic
chromosome
number
10
to
in
spontaneum
was
caused
by
fissions
2
ancestral
chromosomes
followed
translocations
chromosomes.
Surprisingly,
80%
nucleotide
binding
site-encoding
associated
located
rearranged
51%
those
regions.
Resequencing
64
genomes
identified
balancing
selection
regions,
maintaining
their
diversity.
Introgressed
modern
randomly
distributed
AP85-441
genome,
indicating
random
recombination
among
homologs
different
accessions.
allele-defined
genome
offers
new
knowledge
resources
accelerate
sugarcane
improvement.
sugarcane,
allows
prototypical
version
set.
This
reference
will
serve
as
resource
Plant Biotechnology Journal,
Год журнала:
2018,
Номер
17(2), С. 421 - 434
Опубликована: Июль 19, 2018
Cassava
brown
streak
disease
(CBSD)
is
a
major
constraint
on
cassava
yields
in
East
and
Central
Africa
threatens
production
West
Africa.
CBSD
caused
by
two
species
of
positive-sense
RNA
viruses
belonging
to
the
family
Potyviridae,
genus
Ipomovirus:
virus
(CBSV)
Ugandan
(UCBSV).
Diseases
Potyviridae
require
interaction
viral
genome-linked
protein
(VPg)
host
eukaryotic
translation
initiation
factor
4E
(eIF4E)
isoforms.
encodes
five
eIF4E
proteins:
eIF4E,
eIF(iso)4E-1,
eIF(iso)4E-2,
novel
cap-binding
protein-1
(nCBP-1),
nCBP-2.
Protein-protein
experiments
consistently
found
that
VPg
proteins
associate
with
nCBPs.
CRISPR/Cas9-mediated
genome
editing
was
employed
generate
ncbp-1,
ncbp-2,
ncbp-1/ncbp-2
mutants
cultivar
60444.
Challenge
CBSV
showed
displayed
delayed
attenuated
aerial
symptoms,
as
well
reduced
severity
incidence
storage
root
necrosis.
Suppressed
symptoms
were
correlated
titre
roots
relative
wild-type
controls.
Our
results
demonstrate
ability
modify
multiple
genes
simultaneously
achieve
tolerance
CBSD.
Future
studies
will
investigate
contribution
remaining
isoforms
translate
this
knowledge
into
an
optimized
strategy
for
protecting
from
disease.
Nature Genetics,
Год журнала:
2017,
Номер
49(6), С. 959 - 963
Опубликована: Апрель 17, 2017
Cassava
(Manihot
esculenta
Crantz)
is
an
important
staple
food
crop
in
Africa
and
South
America;
however,
ubiquitous
deleterious
mutations
may
severely
decrease
its
fitness.
To
evaluate
these
mutations,
we
constructed
a
cassava
haplotype
map
through
deep
sequencing
241
diverse
accessions
identified
>28
million
segregating
variants.
We
found
that
(i)
although
domestication
has
modified
starch
ketone
metabolism
pathways
to
allow
for
human
consumption,
the
concomitant
bottleneck
clonal
propagation
have
resulted
large
proportion
of
fixed
amino
acid
changes,
increased
number
alleles
by
26%,
shifted
mutational
burden
toward
common
variants;
(ii)
been
ineffectively
purged,
owing
limited
recombination
genome;
(iii)
recent
breeding
efforts
maintained
yield
masking
most
damaging
recessive
heterozygous
state
but
unable
purge
mutation
burden;
such
purging
should
be
key
target
future
breeding.
The
history
of
maize
has
been
characterized
by
major
demographic
events,
including
population
size
changes
associated
with
domestication
and
range
expansion,
gene
flow
wild
relatives.
interplay
between
selection
shaped
diversity
across
populations
genomes.We
investigate
these
processes
using
high-depth
resequencing
data
from
31
landraces
spanning
the
pre-Columbian
distribution
maize,
four
teosinte
individuals
(Zea
mays
ssp.
parviglumis).
Genome-wide
analyses
reveal
that
experienced
pronounced
declines
in
effective
due
to
both
a
protracted
bottleneck
serial
founder
effects
during
post-domestication
spread,
while
parviglumis
Balsas
River
Valley
growth.
subsequent
spread
led
an
increase
deleterious
alleles
domesticate
compared
progenitor.
This
cost
is
particularly
Andean
which
more
dramatic
event
other
populations.
Additionally,
we
detect
introgression
Zea
mexicana
into
highlands
Mexico,
Guatemala,
southwestern
USA,
reduces
prevalence
likely
higher
long-term
teosinte.These
findings
underscore
strong
interaction
historical
demography
efficiency
illustrate
how
domesticated
species
are
useful
for
understanding
processes.
landscape
therefore
evolutionary
potential
clearly
influenced
recent
demography,
factor
could
bear
importantly
on
many
have
shifts.
Nature,
Год журнала:
2021,
Номер
599(7886), С. 622 - 627
Опубликована: Ноя. 10, 2021
Abstract
Zero
hunger
and
good
health
could
be
realized
by
2030
through
effective
conservation,
characterization
utilization
of
germplasm
resources
1
.
So
far,
few
chickpea
(
Cicer
arietinum
)
accessions
have
been
characterized
at
the
genome
sequence
level
2
Here
we
present
a
detailed
map
variation
in
3,171
cultivated
195
wild
to
provide
publicly
available
for
genomics
research
breeding.
We
constructed
pan-genome
describe
genomic
diversity
across
its
progenitor
accessions.
A
divergence
tree
using
genes
around
80%
individuals
one
species
allowed
us
estimate
over
last
21
million
years.
Our
analysis
found
chromosomal
segments
that
show
signatures
selection
during
domestication,
migration
improvement.
The
locations
deleterious
mutations
responsible
limited
genetic
decreased
fitness
were
identified
elite
germplasm.
superior
haplotypes
improvement-related
traits
landraces
can
introgressed
into
breeding
lines
haplotype-based
breeding,
targets
purging
alleles
genomics-assisted
and/or
gene
editing.
Finally,
propose
three
crop
strategies
based
on
prediction
enhance
productivity
16
while
avoiding
erosion
optimal
contribution
(OCS)-based
pre-breeding.
predicted
performance
100-seed
weight,
an
important
yield-related
trait,
increased
up
23%
12%
with
OCS-
approaches,
respectively.
Nature Genetics,
Год журнала:
2023,
Номер
55(3), С. 507 - 518
Опубликована: Март 1, 2023
Pearl
millet
is
an
important
cereal
crop
worldwide
and
shows
superior
heat
tolerance.
Here,
we
developed
a
graph-based
pan-genome
by
assembling
ten
chromosomal
genomes
with
one
existing
assembly
adapted
to
different
climates
captured
424,085
genomic
structural
variations
(SVs).
Comparative
genomics
transcriptomics
analyses
revealed
the
expansion
of
RWP-RK
transcription
factor
family
involvement
endoplasmic
reticulum
(ER)-related
genes
in
The
overexpression
gene
led
enhanced
plant
tolerance
transactivated
ER-related
quickly,
supporting
roles
factors
ER
system
Furthermore,
found
that
some
SVs
affected
expression
associated
surrounding
shaped
adaptation
during
domestication
population.
Our
study
provides
comprehensive
resource
revealing
insights
into
laying
foundation
for
generating
more
robust
crops
under
changing
climate.
Nature Communications,
Год журнала:
2024,
Номер
15(1)
Опубликована: Янв. 17, 2024
Abstract
Frogs
are
an
ecologically
diverse
and
phylogenetically
ancient
group
of
anuran
amphibians
that
include
important
vertebrate
cell
developmental
model
systems,
notably
the
genus
Xenopus
.
Here
we
report
a
high-quality
reference
genome
sequence
for
western
clawed
frog,
tropicalis
,
along
with
draft
chromosome-scale
sequences
three
distantly
related
emerging
frog
species,
Eleutherodactylus
coqui
Engystomops
pustulosus
Hymenochirus
boettgeri
Frog
chromosomes
have
remained
remarkably
stable
since
Mesozoic
Era,
limited
Robertsonian
(i.e.,
arm-preserving)
translocations
end-to-end
fusions
found
among
smaller
chromosomes.
Conservation
synteny
includes
conservation
centromere
locations,
marked
by
centromeric
tandem
repeats
associated
Cenp-a
binding
surrounded
pericentromeric
LINE/L1
elements.
This
work
explores
structure
across
frogs,
using
dense
meiotic
linkage
map
X.
chromatin
conformation
capture
(Hi-C)
data
all
species.
Abundant
satellite
occupy
unusually
long
(~20
megabase)
terminal
regions
each
chromosome
coincide
high
rates
recombination.
Both
embryonic
differentiated
cells
show
reproducible
associations
telomeres,
reflecting
Rabl-like
configuration.
Our
comparative
analyses
reveal
13
conserved
ancestral
from
which
contemporary
genomes
were
constructed.
