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1 oal-directed behavior (e.g., food intake and reproductive function).
2 g by E2 in hypothalamic neurons critical for reproductive function.
3 e driving force initiating the maturation of reproductive function.
4 cate malignant processes can also compromise reproductive function.
5 playing a critical role in regulating cyclic reproductive function.
6 t contributes to hypothalamic suppression of reproductive function.
7 the development and regulation of mammalian reproductive function.
8 pituitary gonadal axis essential for normal reproductive function.
9 gery and chemotherapy may expect to preserve reproductive function.
10 ased breast and prostate cancer, and altered reproductive function.
11 s is excellent, and most patients may retain reproductive function.
12 in governing the onset of puberty and adult reproductive function.
13 n the control of mammalian puberty and adult reproductive function.
14 re normal, showing no defects in AR-mediated reproductive function.
15 ally rescued the impact of COX-2 deletion on reproductive function.
16 cts of this treatment, including analysis of reproductive function.
17 e basal forebrain, play an important role in reproductive function.
18 , is a key regulator of several processes in reproductive function.
19 inhibin is unique and critical to integrated reproductive function.
20 ketoacidosis, and normalizing life span and reproductive function.
21 at may serve to integrate energy balance and reproductive function.
22 ve impact of this strategy on hemostatic and reproductive function.
23 y gonadotropins LH and FSH and impairment of reproductive function.
24 lation of hypothalamic neurons that controls reproductive function.
25 mpsia might be achieved without compromising reproductive function.
26 alizes adipose tissue content, lifespan, and reproductive function.
27 g hormone (GnRH) is the central regulator of reproductive function.
28 reduces postnatal survival, growth, and male reproductive function.
29 nd maturation of mammalian sexual organs and reproductive function.
30 tes genes important for male development and reproductive function.
31 ch as phthalates, are suspected of affecting reproductive function.
32 uction, thereby timing annual transitions in reproductive function.
33 f BMP signaling pathways in other aspects of reproductive function.
34 ntal signals important for the regulation of reproductive function.
35 ty, tissue metabolism, stress responses, and reproductive function.
36 uroendocrine LHRH system, cells critical for reproductive function.
37 n releasing hormone (GnRH), is paramount for reproductive function.
38 rate into the forebrain where they influence reproductive function.
39 estrogen that goes beyond direct control of reproductive function.
40 rons serve as the nodal regulatory centre of reproductive function.
41 hormone (LHRH), the neuropeptide controlling reproductive function.
42 ells which play a central role in regulating reproductive function.
43 ions that mediate ovarian steroid effects on reproductive function.
44 D has been reported to adversely affect male reproductive function.
45 specific genetic architecture, aligning with reproductive function.
46 y cues for the attainment and maintenance of reproductive function.
47 lsatile GnRH release is essential for normal reproductive function.
48 related to environmental influences on male reproductive function.
49 binding, cell differentiation, digestive and reproductive function.
50 reduce inflammation and stress or to improve reproductive function.
51 everaged to help restore aspects of youthful reproductive function.
52 sgene expression, reproductive hormones, and reproductive function.
53 ng hormone (LH) are pivotal events in female reproductive function.
54 agent for patients with common disorders of reproductive function.
55 d amino acid neurotransmitters to coordinate reproductive function.
56 ogens are essential for male development and reproductive function.
57 receptors (LepRb(POA) neurons) and modulate reproductive function.
58 the oldest aged animals due to senescence in reproductive function.
59 evolutionary trends in this gene engaged in reproductive function.
60 es can alter both sexual differentiation and reproductive function.
61 novo, indicating possible interference with reproductive function.
62 central regulators of energy homeostasis and reproductive function.
63 itro and in vivo and disrupts mammalian male reproductive function.
64 l transmission of energy balance to modulate reproductive function.
65 and control downstream targets that mediate reproductive function.
66 are essential for puberty and maintenance of reproductive function.
67 -responsive gene loci that are essential for reproductive function.
68 itions in a variety of tissues associated in reproductive function.
69 inence region (S-ME) is essential for normal reproductive function.
70 uration of hypothalamic circuits involved in reproductive function.
71 during childhood and adolescence can impair reproductive function.
72 ersal evaluations that reliably reflect male reproductive function.
73 generational effects of tetracycline on male reproductive function.
74 put of signals from the brain that regulates reproductive function.
75 ished activity of these pivotal mediators of reproductive function.
76 ditioning tasks than did rats with declining reproductive function.
77 nd immune stress, is known to interfere with reproductive functions.
78 of the mechanisms by which IL-1beta inhibits reproductive functions.
79 clear receptor ligand responses to essential reproductive functions.
80 e variety of actions on reproductive and non-reproductive functions.
81 trogen-like activities can further influence reproductive functions.
82 is during embryogenesis, skeletal growth and reproductive functions.
83 for the developmental control of dermal and reproductive functions.
84 iation, development, and maintenance of male reproductive functions.
85 e vascular, neurological, immunological, and reproductive functions.
86 d and whether a single mechanism affects all reproductive functions.
87 omatic structures specialized for particular reproductive functions.
88 int to the rapid molecular evolution of male reproductive functions.
89 nerally understood to play a pivotal role in reproductive functions.
90 ties differentially affected male and female reproductive functions.
91 ss experience to sperm, ultimately affecting reproductive functions.
92 ocate in a zero-sum game between somatic and reproductive functions.
93 diagnosis and can provide insight for other reproductive functions.
94 beef cows, which negatively affects various reproductive functions.
95 ropin-releasing hormone neurons and regulate reproductive functions.
96 d integrates the brain circuitry controlling reproductive functions.
97 ted secretion of LH and FSH are critical for reproductive functions.
98 eural tissues, most of which are involved in reproductive functions.
99 nergy metabolism, membrane modification, and reproductive function; (2) EVs bound and fused with the
100 herefore appears to cause early cessation of reproductive function, a condition that has been associa
102 phenotypic trade-offs between metabolic and reproductive functions across widespread species are wel
104 further clarify the impact of BMT on female reproductive function after CTx using a preclinical mous
109 l for resistance to chewing insects and male reproductive function and further suggest that other ACX
110 n the male reproductive system may influence reproductive function and health of the male and result
111 sions in ambient temperature can affect male reproductive function and identify the sperm sncRNA prof
115 anabolic androgenic steroids (AAS) disrupts reproductive function and may have critical repercussion
116 robiomes can have significant effects on the reproductive function and performance of males and femal
118 is a trophic peptide hormone that modulates reproductive function and proliferation in many cell typ
120 P2X1 receptors are essential for normal male reproductive function and suggest that the development o
121 This domain is mandatory for E2-mediated reproductive function and suggests that this role is con
122 macronutrient balance and calorie intake on reproductive function and support the need to develop sp
123 henotype) should be investigated for altered reproductive function and/or altered susceptibility to b
124 angiogenesis and is also required for female reproductive functions and endochondral bone formation.
125 , 30 of which are known to be linked to male reproductive functions and include sexual markers conser
126 RP9 play a concerted role in regulating male reproductive functions and mitochondrial sufficiency.
127 ng dwarfism, delayed puberty, reduced female reproductive function, and blunted mammary gland develop
128 ating energy balance, the immune system, and reproductive function, and further suggest that high-dos
129 an essential role in sexual development and reproductive function, and its transcription is subjecte
133 evealed that JDP2 null male mice have normal reproductive function, as expected from a negative regul
134 ed regulation plays key roles in Arabidopsis reproductive function, as it facilitates gametophyte for
135 critical regulator of sexual maturation and reproductive function, as mice lacking miR-7a2 develop h
136 were categorized as maintaining or declining reproductive function based upon their estrous cyclicity
137 structural changes to perform their critical reproductive functions before reverting to their origina
138 etabolism, including regulation of appetite, reproductive function, body temperature, white fat mass,
139 nding of the establishment and regulation of reproductive functions, both in health and in disease.
140 characterizing developmental PCB effects on reproductive function, broader social and affective beha
141 2 critically regulates sexual maturation and reproductive function by interconnecting miR-7 genomic c
142 sing hormone (GnRH) plays a critical role in reproductive function by regulating the biosynthesis and
143 itary GnRH receptor (GnRHR) is essential for reproductive function by stimulating the synthesis and s
145 Estrogens are thought to regulate female reproductive functions by altering gene transcription in
151 ting in a distinct blood metabolism and poor reproductive function due to impaired ovulation and incr
152 nt and illustrate how genes acquire and lose reproductive functions during evolution, a potential mec
153 desaturases, which do not possess the novel reproductive function, evolve more slowly and display th
154 we developed a model to transiently suppress reproductive function followed by controlled hormone adm
155 is known about the immediate impact on male reproductive function following subchronic whole-body ex
157 nted primordial follicle loss and maintained reproductive function from cyclophosphamide and doxorubi
159 he effect of recent alcohol intake on female reproductive function has not been clearly established.
160 l sensation relevant to thermoregulation and reproductive functions, HE TRPV1 cells may mediate burni
162 y suggests that RANKL is a regulator of male reproductive function, however, predictive biomarkers fo
163 (C), fat (F), and energy (E) on lifespan and reproductive function in aging male and female mice.
164 APGWamide may play a role in regulating male reproductive function in Aplysia, as it does in other ga
166 d demonstrate that it is required for proper reproductive function in both male and female mice.
168 nd hypothalamus, brain regions that regulate reproductive function in female rats, and evaluated whet
169 eurons acting through MC4R directly regulate reproductive function in females by stimulating the 'pul
173 and distinguish how these molecules regulate reproductive function in male and female mice, non-human
181 r acetaminophen) affected GC development and reproductive function in resulting offspring (F1) or in
183 may affect depression risk, and the role of reproductive function in the excess depression risk in w
185 id receptor densities increased with loss of reproductive function in the YPM, whereas receptor densi
186 g particularly notable disruptive effects on reproductive function in women with epilepsy (polycystic
193 tabolic health but has only minor effects on reproductive functions in this PCOS-like mouse model.
194 ogical processes including in puberty, adult reproductive function including the menstrual cycle, as
195 thesis that E(2)-dependent aspects of female reproductive function, including alpha(1B)-adrenoceptor
196 he neuroendocrine control of homeostatic and reproductive functions, including the stress response, e
197 elationship between barnacle size and female reproductive function influences the distribution of par
199 luence of the childhood environment on adult reproductive function is an important consideration in u
203 Allocation of finite resources to separate reproductive functions is predicted to vary across envir
204 n to regulate the onset of puberty and adult reproductive function, is enriched in cilia projecting f
205 um of therapeutic options that do not affect reproductive function, it is anticipated that more vascu
209 nd suggest that the estrogenic regulation of reproductive functions may thus involve altered response
211 e essential role(s) of oxytocin in mammalian reproductive function, mice deficient in oxytocin have b
213 tradiol-17beta, is a key modulator of normal reproductive functions, natural and synthetic compounds
214 o exhibit seasonal patterns of investment in reproductive function nonetheless, with levels of sex st
216 in deep space poses potential hazards to the reproductive function of female and male astronauts, inc
222 that the PR-B isoform modulates a subset of reproductive functions of progesterone by regulation of
223 hanisms by which the Clock mutation disrupts reproductive function offers a model for understanding h
224 satory mechanisms that buffer the effects of reproductive function on physiological dysregulation dur
225 of Allee effects, how climate change impacts reproductive function on reefs, and opportunities for re
227 siological effects on birds, their impact on reproductive functions, particularly sperm quality, rema
229 life history theory, increased investment in reproductive function (physiology and behaviour) at diff
231 s occur mainly in young men, preservation of reproductive function, quality of life after treatment,
234 we investigated the effects of leuprolide on reproductive function, social and affective behavior, co
235 imal and cellular studies to regulate normal reproductive function, strongly implicating their role i
236 eizures in women can have adverse effects on reproductive function, such as polycystic ovarian syndro
238 were quantified in four regions relevant to reproductive function: the anteroventral periventricular
239 a detailed questionnaire about menstrual and reproductive function; those who did not return the ques
240 NF123, indicating that depression may impact reproductive function through these genetic pathways, wi
243 at they have become ritualised, beyond their reproductive function, to serve as broader social signal
244 exual maturity ( approximately 184 dpf) when reproductive function was evaluated using a 21 day breed
246 LIF, a cytokine that is required for optimal reproductive function, was produced at 2x higher levels
250 a can expect cure with maintenance of normal reproductive function when treated with conservative sur
251 ce of genomic forces that are not related to reproductive function, whereas the latter have a direct
252 Adequate nutrition is essential for normal reproductive function, which is vital for species to sur
253 optimal balance of macronutrients exists for reproductive function, which, for most measures, differs
254 tanding of how the testis maintains its core reproductive function while being a hotbed of evolutiona
255 ur was strongly decoupled from its ancestral reproductive function with habitual use in the social do