Add to ORKGMammalian epidermis is a perpetually renewing tissue that is sustained by permanently residing multipotent stem cells able to generate multiple differentiated lineages including the interfollicular epidermis (IFE), hair follicle (HF) and sebaceous gland (SG
The dynamics and interactions between stem cell pools in the hair follicle (HF), sebaceous gland (SG...
Homeostatic epidermal tissue renewal is the result of the combined activity of rare but potent stem ...
Renewal of epidermis is achieved by an ordered replication of stem cells and transit amplifying cell...
Mammalian epidermis is a perpetually renewing tissue that is sustained by permanently residing multi...
Stem cells with the capacity to generate all epidermal lineages have been identified in hair follicl...
The skin epidermis is a stratified epithelium that forms a barrier that protects animals from dehydr...
Homeostasis in adult somatic tissues requires balanced cell proliferation and differentiation. This ...
The skin epidermis and its array of appendages undergo ongoing renewal by a process called homeostas...
BACKGROUND: The skin protects mammals from insults, infection and dehydration and enables thermoregu...
Mammalian epidermis is a highly dynamic epithelium comprising the interfollicular epidermis, hair fo...
The epidermis is the outermost layer of the human skin and comprises a multilayered epithelium, the ...
Skin development is governed by interactions between the epithelium and mesenchyme, which result in ...
The skin epidermis ensures critical vital functions: it represents the first line of defense against...
Mammalian epidermis is maintained by stem cells that have the ability to self-renew and generate dau...
Homeostatic epidermal tissue renewal is the result of the combined activity of rare but potent stem ...
The dynamics and interactions between stem cell pools in the hair follicle (HF), sebaceous gland (SG...
Homeostatic epidermal tissue renewal is the result of the combined activity of rare but potent stem ...
Renewal of epidermis is achieved by an ordered replication of stem cells and transit amplifying cell...
Mammalian epidermis is a perpetually renewing tissue that is sustained by permanently residing multi...
Stem cells with the capacity to generate all epidermal lineages have been identified in hair follicl...
The skin epidermis is a stratified epithelium that forms a barrier that protects animals from dehydr...
Homeostasis in adult somatic tissues requires balanced cell proliferation and differentiation. This ...
The skin epidermis and its array of appendages undergo ongoing renewal by a process called homeostas...
BACKGROUND: The skin protects mammals from insults, infection and dehydration and enables thermoregu...
Mammalian epidermis is a highly dynamic epithelium comprising the interfollicular epidermis, hair fo...
The epidermis is the outermost layer of the human skin and comprises a multilayered epithelium, the ...
Skin development is governed by interactions between the epithelium and mesenchyme, which result in ...
The skin epidermis ensures critical vital functions: it represents the first line of defense against...
Mammalian epidermis is maintained by stem cells that have the ability to self-renew and generate dau...
Homeostatic epidermal tissue renewal is the result of the combined activity of rare but potent stem ...
The dynamics and interactions between stem cell pools in the hair follicle (HF), sebaceous gland (SG...
Homeostatic epidermal tissue renewal is the result of the combined activity of rare but potent stem ...
Renewal of epidermis is achieved by an ordered replication of stem cells and transit amplifying cell...