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1 of discriminate sexual behaviour across the animal kingdom.
2 nging is a near-ubiquitous phenomenon in the animal kingdom.
3 ental factors, is a common phenomenon in the animal kingdom.
4 n of species and are observed throughout the animal kingdom.
5 n of immune cells in organisms, spanning the animal kingdom.
6 d locomotion)--are widespread throughout the animal kingdom.
7 naling and a novel enzymatic activity in the animal kingdom.
8 velopment, which is conserved throughout the animal kingdom.
9 ive nature of human culture is unique in the animal kingdom.
10 family, found in yeast and widespread in the animal kingdom.
11 he conservation of these pathways across the animal kingdom.
12 ssive behaviour is widespread throughout the animal kingdom.
13 elations between items, is widespread in the animal kingdom.
14 consortia of a range of hosts that spans the animal kingdom.
15 sexual development are found throughout the animal kingdom.
16 ons is a shared network character across the animal kingdom.
17 olution of this second largest phylum in the animal kingdom.
18 a prevalent neurotransmitter throughout the animal kingdom.
19 will hold true for germ cells throughout the animal kingdom.
20 n initiation, a process important across the animal kingdom.
21 ymmetry is generated and utilized across the animal kingdom.
22 that are evolutionarily conserved across the animal kingdom.
23 ccharides that are found ubiquitously in the animal kingdom.
24 behavior and one which may be unique in the animal kingdom.
25 tial to modulate host gene expression in the animal kingdom.
26 es in the functions of Dmrt genes across the animal kingdom.
27 enes across a representative sampling of the animal kingdom.
28 ly to be evolutionarily conserved across the animal kingdom.
29 -host interactions mediated by viRNAs in the animal kingdom.
30 us diversity of the genome repertoire in the animal kingdom.
31 for a thrust generating apparatus within the animal kingdom.
32 n and gene loss within major branches of the animal kingdom.
33 dual gene sequences are conserved across the animal kingdom.
34 underlies visual motion detection across the animal kingdom.
35 rning the activity of clustered genes in the animal kingdom.
36 atch-up' growth, is widely documented in the animal kingdom.
37 nce-dependent, have been observed across the animal kingdom.
38 of complex and flexible behaviors across the animal kingdom.
39 ns/pannexins, which are found throughout the animal kingdom.
40 to identify the common principles across the animal kingdom.
41 the nervous system are found throughout the animal kingdom.
42 nserved requirement for fertility across the animal kingdom.
43 merous developmental pathways throughout the animal kingdom.
44 portant for sex determination throughout the animal kingdom.
45 principle of social organization across the animal kingdom.
46 mic A/B sensing via sAC is widespread in the animal kingdom.
47 n elephants (Loxodonta africana) at Disney's Animal Kingdom.
48 roteins in development and growth across the animal kingdom.
49 diverse master regulatory factors across the animal kingdom.
50 n Mollusca, the second largest phylum in the animal kingdom.
51 ath and is found in organisms throughout the animal kingdom.
52 navigation and communication throughout the animal kingdom.
53 tate of myosin across a wide spectrum of the animal kingdom.
54 ogical processes important across the entire animal kingdom.
55 ears evolutionarily conserved throughout the animal kingdom.
56 mologs are widely distributed throughout the animal kingdom.
57 ar matrix found throughout the multicellular animal kingdom.
58 ot be simply extrapolated to the rest of the animal kingdom.
59 strate cell fate and behavior throughout the animal kingdom.
60 mented ballistic predatory appendages in the animal kingdom.
61 l mechanisms widely conserved throughout the animal kingdom.
62 the early cardiac primordium throughout the animal kingdom.
63 ability best left to nonhuman members of the animal kingdom.
64 nce variation at a whole-genome scale in the animal kingdom.
65 ve erythrocytes of mammals are unique in the animal kingdom.
66 homologs have been identified throughout the animal kingdom.
67 an tissues and broadly distributed among the animal kingdom.
68 uncharacterized phylogenetic branches of the animal kingdom.
69 iotropic roles in development throughout the animal kingdom.
70 function and evolution of clock genes in the animal kingdom.
71 ed feature of spermatogenesis throughout the animal kingdom.
72 factors, which are ubiquitously found in the animal kingdom.
73 he course of a lifetime is inevitable in the animal kingdom.
74 n in normal appendage development across the animal kingdom.
75 irror is an exceedingly rare capacity in the animal kingdom.
76 many gene families that are not found in the animal kingdom.
77 Drosophila's clock are conserved within the animal kingdom.
78 t belongs to the second oldest phylum of the animal kingdom.
79 ul strategies for motion used throughout the animal kingdom.
80 to the survival of organisms throughout the animal kingdom.
81 the first example of meiotic PCD outside the animal kingdom.
82 ars to be a highly conserved function in the animal kingdom.
83 cteria, archaea, and fungi to plants and the animal kingdom.
84 ium signals are widely shared throughout the animal kingdom.
85 f the best-understood neural circuits in the animal kingdom.
86 resents a major form of sensory input in the animal kingdom.
87 ty of developmental processes throughout the animal kingdom.
88 ting habits are linked to TMAO levels in the animal kingdom.
89 riation on reconstructing phylogenies of the animal kingdom.
90 an important role in species throughout the animal kingdom.
91 nd olfactory system formation throughout the animal kingdom.
92 ositional identity in embryos throughout the animal kingdom.
93 vironment varies widely among species in the animal kingdom.
94 havioral types (BTs)], are common across the animal kingdom.
95 pattern that is probably typical across the animal kingdom.
96 Social grouping is omnipresent in the animal kingdom.
97 brane glycoproteins conserved throughout the animal kingdom.
98 te, a behaviour that is prevalent across the animal kingdom.
99 development are deeply conserved within the animal kingdom.
100 ally transient, anticancer adaptation in the animal kingdom.
101 ic and post-embryonic development across the animal kingdom.
102 opment and tissue homeostasis throughout the animal kingdom.
103 t on human history with no equivalent in the animal kingdom.
104 d examples of secondary sexual traits in the animal kingdom.
105 l's prey strike is one of the fastest in the animal kingdom.
106 n over scarce resources is common across the animal kingdom.
107 ting appears to be widespread throughout the animal kingdom.
108 etic requirements that are shared across the animal kingdom.
109 e fitness, yet are uncommon phenomena in the animal kingdom.
110 ate missing body parts exists throughout the animal kingdom.
111 loration-exploitation dilemma throughout the animal kingdom.
112 pt similar cognitive raw material across the animal kingdom.
113 symmetry is the predominant body plan in the animal kingdom.
114 the spacing effect, a common property in the animal kingdom.
115 ke risks ("boldness"), are widespread in the animal kingdom.
116 main regulator of development throughout the animal kingdom.
117 central nervous system varies widely in the animal kingdom.
118 l process for hearing in all ears across the animal kingdom.
119 le traits that are ubiquitous throughout the animal kingdom.
120 ents a distinct type of photoreceptor in the animal kingdom.
121 unknown types of photoreceptors exist in the animal kingdom.
122 of tetrodotoxin and its distribution in the animal kingdom.
123 te signalling molecule in both the plant and animal kingdoms.
124 l strategy employed throughout the plant and animal kingdoms.
125 hat is highly conserved across the plant and animal kingdoms.
126 d epigenetic functions in both the plant and animal kingdoms.
127 tes with host ranges spanning both plant and animal kingdoms.
128 tion of this domain throughout the plant and animal kingdoms.
129 of innate immunity throughout the plant and animal kingdoms.
130 crobial recognition throughout the plant and animal kingdoms.
131 A transposons found throughout the plant and animal kingdoms.
132 at pre-dated the divergence of the plant and animal kingdoms.
133 erved RNA silencing pathway in the plant and animal kingdoms.
134 the evolutionary split between the plant and animal kingdoms.
135 miRNAs are present in both plant and animal kingdoms.
136 nd thriving in members of both the plant and animal kingdoms.
137 uaporins is maintained between the plant and animal kingdoms.
138 ge, but preceded the divergence of plant and animal kingdoms.
139 e phylogenetic relatedness of the fungal and animal kingdoms.
140 h the translation machinery across plant and animal kingdoms.
141 the mechanisms in the rest of the plant and animal kingdoms.
142 es centromere location across both plant and animal kingdoms.
143 histone K-to-M mutation across the plant and animal kingdoms.
144 sRNA) that have been found in both plant and animals kingdoms.
145 How does consciousness vary across the animal kingdom?
146 Lateralization is widespread throughout the animal kingdom [1-7] and can increase task efficiency vi
150 ting the expression of cellular genes in the animal kingdom, although animal virus-encoded microRNAs
153 bial peptides are distributed throughout the animal kingdom and are a key component of innate immunit
154 Cell migrations are found throughout the animal kingdom and are among the most dramatic and compl
155 smitted diseases (STDs) occur throughout the animal kingdom and are generally thought to affect host
156 ling molecules that are found throughout the animal kingdom and are important for a wide variety of n
157 caspases are highly conserved throughout the animal kingdom and are the principal effectors of apopto
158 of defocus estimation in species across the animal kingdom and for developing optimal image-based de
159 synthesize the vitamin first appeared in the animal kingdom and how frequently the trait has been los
162 ineralization is a ubiquitous process in the animal kingdom and is fundamental to human development a
163 N-terminal extension is present outside the animal kingdom and is highly conserved, consistent with
164 ed fibrillar pattern is preserved across the animal kingdom and is important for the determination of
165 cerebral cortex of humans is unusual in the animal kingdom and is thought to have promoted our adapt
166 nes of the Hox cluster are restricted to the animal kingdom and play a central role in axial patterni
167 nds the understanding of Hh signaling in the animal kingdom and suggests an ancestral mechanistic lin
168 e nature of rest and sleep states across the animal kingdom and within the mammalian class has import
169 ed several new SCAMPs spanning the plant and animal kingdoms and have defined a broadly conserved pro
170 and HIV-1 Tat function across the plant and animal kingdoms and suppress a common step in RNA silenc
173 e signaling systems are found throughout the animal kingdom, and ceramide signaling is conserved thro
174 ty-dependent dispersal occurs throughout the animal kingdom, and has been shown to occur in some taxa
175 mmunication signals is widespread across the animal kingdom, and males of many species, including Dro
176 ecent reorganisation of the phylogeny of the animal kingdom, and the distinction of the super-phyla E
177 ave evolved on multiple occasions across the animal kingdom, and they can act as key adaptations to p
178 ressive behavior is pervasive throughout the animal kingdom, and yet very little is known about its m
179 osons is widespread across fungal, plant and animal kingdoms, and thought to contribute to the evolut
180 cells, prior to the divergence of plant and animal kingdoms, and underscores the diversity of cellul
181 that neural asymmetries observed across the animal kingdom are similarly established by very early e
182 A major evolutionary divide occurs in the animal kingdom between the so-called radially symmetric
183 onships between the earliest branches of the animal kingdom - bilaterians, cnidarians, ctenophores, s
184 al role in specifying the eye throughout the animal kingdom, both groups of biologists have been conv
185 des comprise one of the largest phyla in the animal kingdom, both in terms of individual numbers and
186 enzyme activity is unknown elsewhere in the animal kingdom but is shared with strains of pathogenic
187 s in body size are widespread throughout the animal kingdom but their underlying mechanisms are not w
188 Structural color is commonly observed in the animal kingdom, but has been little studied in plants.
189 d identity signatures are commonplace in the animal kingdom, but how they are recognized is poorly un
190 ral flexibility is widespread throughout the animal kingdom, but its underlying mechanisms remain poo
191 Regeneration is widespread throughout the animal kingdom, but our molecular understanding of this
192 enomenon disparately reported throughout the animal kingdom, but present in the hexactinellid mtDNAs
193 in fungi and oomycetes are also found in the animal kingdom, but rather than single-domain enzymes, t
194 sides of the brain are found throughout the animal kingdom, but the consequences of altered neural a
195 al biological process observed widely in the animal kingdom, but the neural circuits generating sleep
196 gic neurons (DANs) drive learning across the animal kingdom, but the upstream circuits that regulate
198 of the most remarkable mating systems in the animal kingdom, comprising three different male morphs (
199 m line determination are used throughout the animal kingdom: conditional-an inductive mechanism, and
200 molecular solution across the breadth of the animal kingdom, demonstrating how a scarcity of possible
202 ponding phosphagen kinases) are found in the animal kingdom distributed along distinct phylogenetic l
203 se orthologs exist across plant, fungal, and animal kingdoms, DRP5B is a plant/algal invention to fac
204 ss (Wls), a gene highly conserved across the animal kingdom, encodes for a transmembrane protein that
205 ite features, which are conserved across the animal kingdom, enforce cis-Delta9 fatty acylation of WN
210 Parental care is found in species across the animal kingdom, from small insects to large mammals, wit
211 This strategy is highly conserved in the animal kingdom, from zooplankton to human hunter-gathere
214 rallels in between-group conflict across the animal kingdom, harnessing the power of experimental tes
216 e dorsal/ventral (D/V) patterning across the animal kingdom; however, the biochemical properties of c
217 boxylase was known to be present only in the animal kingdom (i.e. metazoans that include mammals, fis
219 ly conserved across species of the plant and animal kingdoms implying that orthologs of HvPDIL5-1 or
221 malian egg appears to be very unusual in the animal kingdom in that it establishes the embryonic axes
222 findings paint a picture of evolution in the animal kingdom in which reductive evolution at the prote
223 heromones are used by species all across the animal kingdom, in every habitat, and in a wide range of
224 oductive strategy widely employed across the animal kingdom, including in mammals, but its regulation
225 es appear to be relatively ubiquitous in the animal kingdom, including the ability to recognize and d
226 ic site of UPRT remains conserved across the animal kingdom indicating an in vivo role for the enzyme
228 unities to learn from others, and across the animal kingdom individuals capitalize on those opportuni
229 sis machineries of two distinct phyla of the Animal kingdom, insects of Arthropoda and mammals of Cho
231 A hallmark of germline cells across the animal kingdom is the presence of perinuclear, electron-
232 ctal vascular trees throughout the plant and animal kingdoms is postulated to be due to evolutionary
233 d light, a visual feat never expected in the animal kingdom, is demonstrated behaviorally here for th
234 nstitute the largest group of species in the animal kingdom--is powered by specialized muscles locate
235 nnate behaviors are conserved throughout the animal kingdom, it is unknown whether common signaling p
237 ore, the conservation of this protein in the animal kingdom may be significant, because Sindbis virus
240 nsion in our cognitive representation of the animal kingdom ontological subdomain: how the brain repr
241 G-1/Neph are all highly conserved across the animal kingdom, our findings may present a conserved Sli
248 long been on the forefront of studies in the animal kingdom, plant studies are poised to take a lead
249 cal information is widespread throughout the animal kingdom, providing adaptive benefits in several e
250 gests that, far from being restricted to the animal kingdom, Rb may have a conserved role in allowing
251 in highly divergent organisms throughout the animal kingdom, recent advances in tools used for molecu
252 specific vocalizations - a rare trait in the animal kingdom - requires a high-degree of vocal plastic
253 gst the most highly energetic tissues in the animal kingdom, reveals structural abnormalities in the
254 regulators are rarely conserved outside the animal kingdom, rhomboid proteins are conserved in all k
255 mbers of the phylum Mollusca demonstrate the animal kingdom's tremendous diversity of body morphology
256 that proteins from the bacterial, plant, and animal kingdoms share a highly conserved domain containi
257 the Wnt receptors, performed throughout the animal kingdom showed that not all Frizzled subfamilies
259 discovery of adherens junctions outside the animal kingdom shows that the dual role of beta-catenin
262 erfamily contains members from the plant and animal kingdoms, some of which are active when introduce
267 of CTCF and Hox gene clusters throughout the animal kingdom suggests conservation of the Hox-CTCF lin
269 Aggression is a prevalent behavior in the animal kingdom that is used to settle competition for li
272 et, from our vantage point as members of the animal kingdom, the evolution of the bewildering diversi
274 addition of a fourth visual modality in the animal kingdom, the perception of circular polarized lig
276 g the evolution of the major branches of the animal kingdom - their relationships to each other and t
278 Given the importance of communication in the animal kingdom, these adjustments can affect social rela
279 ities in dopamine neuron function across the animal kingdom, this may reflect a general principle of
280 ve motor control is ubiquitously employed in animal kingdom to achieve rapid and precise motor action
282 enins evidently partnered at the dawn of the animal kingdom to enable the first polarized epithelium,
283 and therefore we looked for them outside the animal kingdom to examine their evolutionary origins.
284 eptors contribute to host defense across the animal kingdom, transducing many signals involved in bot
286 hether infants, like many species across the animal kingdom, use numerical group size to assess domin
289 nt neurotransmitter conserved throughout the animal kingdom, we show that hypomorphic alleles of eagl
290 Sleep is a phenomenon conserved across the animal kingdom, where studies on Drosophila melanogaster
291 tides (FaRPs) have been found throughout the animal kingdom, where they are involved in many behavior
292 he putative adaptive functions of PCD in the animal kingdom with a major focus on PCD in the developi
293 te (HS) is an abundant polysaccharide in the animal kingdom with essential physiological functions.
294 tics appears to be widespread throughout the animal kingdom with risks to individuals, ecosystems and
295 metries in neuroanatomy exist throughout the animal kingdom, with implications for function and behav
296 human societies are the most complex in the animal kingdom, with intricate family structures and a u
298 widespread relationship to body size in the animal kingdom: within lineages, it decreases with size
300 form and function is observed throughout the animal kingdom, yet mechanisms generating ciliary divers