HPA axis reactivity: a mechanism underlying the associations among 5-HTTLPR, stress, and depression.
about
Description and validation of a dynamical systems model of presynaptic serotonin function: genetic variation, brain activation and impulsivityThe serotonin transporter promoter variant (5-HTTLPR), stress, and depression meta-analysis revisited: evidence of genetic moderationGenetic sensitivity to the environment: the case of the serotonin transporter gene and its implications for studying complex diseases and traitsBlack sheep get the blues: a psychobiological model of social rejection and depressionSerotonin transporter gene promoter region polymorphism and selective processing of emotional imagesResearch on the Pathological Mechanism and Drug Treatment Mechanism of DepressionToward an integration of cognitive and genetic models of risk for depressionStress physiology and developmental psychopathology: past, present, and future.Open and Calm--a randomized controlled trial evaluating a public stress reduction program in DenmarkGenetic and hormonal sensitivity to threat: testing a serotonin transporter genotype × testosterone interactionThe other allele: exploring the long allele of the serotonin transporter gene as a potential risk factor for psychopathy: a review of the parallels in findings.Molecular actions and clinical pharmacogenetics of lithium therapyThe neuroscience of depression: implications for assessment and intervention.The effect of the serotonin transporter polymorphism (5-HTTLPR) on empathic and self-conscious emotional reactivity.Genetics of emotion.The effect of rearing experience and TPH2 genotype on HPA axis function and aggression in rhesus monkeys: a retrospective analysis.Serotonergic function, two-mode models of self-regulation, and vulnerability to depression: what depression has in common with impulsive aggressionLiving in a dangerous world: the shaping of behavioral profile by early environment and 5-HTT genotype.Hypothalamic-pituitary-adrenal axis dysregulation in dysphoric children and adolescents: cortisol reactivity to psychosocial stress from preschool through middle adolescence.Stress-induced activation of the HPA axis predicts connectivity between subgenual cingulate and salience network during rest in adolescents.Individual differences in neural correlates of fear conditioning as a function of 5-HTTLPR and stressful life events.A discordant monozygotic twin design shows blunted cortisol reactivity among bullied childrenSerotonin transporter gene polymorphism modulates inflammatory cytokine responses during acute stress.Biomarkers of intergenerational risk for depression: a review of mechanisms in longitudinal high-risk (LHR) studiesSerotonin transporter genotype, morning cortisol and subsequent depression in adolescents5-HTTLPR moderates the effect of relational peer victimization on depressive symptoms in adolescent girls.Increased waking salivary cortisol and depression risk in preschoolers: the role of maternal history of melancholic depression and early child temperament.Future directions in vulnerability to depression among youth: integrating risk factors and processes across multiple levels of analysisInteraction between 5-HTTLPR and BDNF Val66Met polymorphisms on HPA axis reactivity in preschoolers.The serotonin transporter promoter polymorphism is associated with cortisol response to psychosocial stress.Healthy young women with serotonin transporter SS polymorphism show a pro-inflammatory bias under resting and stress conditions.Association between the catechol-O-methyltransferase Val158Met polymorphism and self-perceived social acceptance in adolescent girls.Association between a serotonin transporter length polymorphism and primary insomniaThe endogenous and reactive depression subtypes revisited: integrative animal and human studies implicate multiple distinct molecular mechanisms underlying major depressive disorder.The serotonin transporter gene and risk for alcohol dependence: a meta-analytic review.Serotonin transporter genotype modulates amygdala activity during mood regulation.BDNF genotype moderates the relation between physical activity and depressive symptoms.Early attachment-figure separation and increased risk for later depression: potential mediation by proinflammatory processes.Children's inferential styles, 5-HTTLPR genotype, and maternal expressed emotion-criticism: An integrated model for the intergenerational transmission of depressionPediatric depression: is there evidence to improve evidence-based treatments?
P2860
Q24289485-813D4CDA-0C7C-4860-8A46-B921E0DD44B0Q24289552-43E32E40-D327-4417-A3EB-E450AE6935FFQ24603974-09484E43-434B-4F19-A960-BF1D13D7CB0AQ24629038-C60F1401-F5BB-4787-BBC0-ADDB686EA9B2Q24631681-CAD1613A-9A6B-4B15-ADA5-37178D3047BFQ26786208-32320A2F-B6C5-4119-8776-40CDB6222EABQ26853074-08282BDA-3352-4F50-A496-15CE57182CFEQ26997176-8F0E63E5-96DB-4911-ADD9-8754FB01A94FQ27310652-0D4CE70D-7AB2-437D-B2E6-2B23B690FE37Q28249863-84856F7E-B22F-4F0F-B4E8-38419A05E7E3Q28289398-68C86746-4C56-42CC-8C64-47E354A0EFD2Q28307770-BBC0B9DE-A6FD-48FE-80EE-71EBD99F92A9Q30399725-92C5880B-AF14-452E-8DA7-5713D6DFF860Q30443529-63B9B750-B53C-4A88-B9F8-5A76E65E1805Q30464322-26FDF9E4-D1CF-4201-B75F-55876C8B278BQ30477262-87D67067-BE77-4C08-B8FE-65FE7A18CB2FQ30482466-9D5C9FD1-D1A7-4D09-AE64-AF4C8C772E36Q30486021-F334CD90-22FA-4EB6-AEBD-9DDB6D5730E0Q30496041-A53E041F-102A-4233-93BD-4B762F7E0204Q30504102-A6612145-46A0-4D5B-9E2C-350ACB09DD70Q30537436-58E6CD11-36D7-4995-840C-343ECE1FAFDBQ30542869-DD2873F5-A4FE-4C57-ADBC-EB8E0F8CE2C1Q30664027-00FADB8B-112A-4AC8-9D46-AF0872C3AAE0Q30893782-A80C9AD4-8E9B-42FD-A87F-CC140B5C1627Q33575170-210588FD-0C79-478E-B412-A5ABA0FD36D0Q33583501-5909E1A3-088A-4A42-818D-B7E2F8817B3DQ33583528-E7391085-2C89-4387-AC34-F8CF7564AF51Q33648462-E12386B1-776A-4F9C-B401-751789902078Q33653447-CD1B5E63-0E70-4D5B-94D3-FA2721A3E1DEQ33665523-E049E8A6-2342-4270-A621-BE110512AF39Q33679060-5A5E6D07-8E78-4E40-9845-8C27999CB5CAQ33694899-BDEC6D1C-1830-474F-9B0A-75A1D8DDB464Q33700749-4F7C12F4-C61F-4D08-94BB-C1E2FF0F66CFQ33715064-8106718A-8135-4E12-8FCE-67D8463D4E0AQ33716681-5ADC0521-2520-40C6-8A23-6F70F79EFBBEQ33736045-A781334A-4CE5-41A1-965E-B0F2328B2026Q33760341-7D193527-CDE6-4718-94AA-9697F260F2DAQ33767298-E0EFDFF6-EDFA-48EC-9669-0798CF936273Q33775653-3C82542E-2622-4B45-A63D-C59B1077079EQ33808467-DB462D41-9BC6-4812-AC7D-EC58CEC5A841
P2860
HPA axis reactivity: a mechanism underlying the associations among 5-HTTLPR, stress, and depression.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@ast
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@de
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@en
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@fr
type
label
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@ast
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@de
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@en
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@fr
prefLabel
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@ast
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@de
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@en
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@fr
P2093
P2860
P1476
HPA axis reactivity: a mechani ...... TTLPR, stress, and depression.
@en
P2093
Ian H Gotlib
Joachim Hallmayer
Jutta Joormann
Kelly L Minor
P2860
P304
P356
10.1016/J.BIOPSYCH.2007.10.008
P407
P577
2007-11-19T00:00:00Z