human pc cell lines Search Results


hffc  (CLS Cell Lines Service GmbH)
93
CLS Cell Lines Service GmbH hffc
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Hffc, supplied by CLS Cell Lines Service GmbH, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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glial cell derived neurotrophic factor  (Alomone Labs)
95
Alomone Labs glial cell derived neurotrophic factor
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Glial Cell Derived Neurotrophic Factor, supplied by Alomone Labs, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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clu512  (Cedarlane)
93
Cedarlane clu512
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Clu512, supplied by Cedarlane, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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human fusion  (Cedarlane)
93
Cedarlane human fusion
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Human Fusion, supplied by Cedarlane, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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primary hgfs  (CLS Cell Lines Service GmbH)
95
CLS Cell Lines Service GmbH primary hgfs
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Primary Hgfs, supplied by CLS Cell Lines Service GmbH, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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human serotonin transporter  (Revvity)
91
Revvity human serotonin transporter
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Human Serotonin Transporter, supplied by Revvity, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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human cb1 receptor  (Revvity)
91
Revvity human cb1 receptor
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Human Cb1 Receptor, supplied by Revvity, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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1321n1 host cell  (Revvity)
90
Revvity 1321n1 host cell
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
1321n1 Host Cell, supplied by Revvity, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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human cell lines  (R&D Systems)
90
R&D Systems human cell lines
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Human Cell Lines, supplied by R&D Systems, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cho k1 cells  (Revvity)
90
Revvity cho k1 cells
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Cho K1 Cells, supplied by Revvity, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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v2 es 363 c receptors  (Revvity)
90
Revvity v2 es 363 c receptors
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
V2 Es 363 C Receptors, supplied by Revvity, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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maintenance human chinese hamster ovary cho fpr2 alx es 610 c  (Revvity)
90
Revvity maintenance human chinese hamster ovary cho fpr2 alx es 610 c
<t>Human</t> <t>foreskin</t> fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and <t>HFFC)</t> support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition
Maintenance Human Chinese Hamster Ovary Cho Fpr2 Alx Es 610 C, supplied by Revvity, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Human foreskin fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and HFFC) support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition

Journal: BMC Microbiology

Article Title: First human cell-based cultivation system for the syphilis spirochete Treponema pallidum

doi: 10.1186/s12866-026-04856-5

Figure Lengend Snippet: Human foreskin fibroblast cell lines support the growth of T. pallidum in vitro . A Human foreskin fibroblast cell lines (MoNa, HFF1, and HFFC) support the growth of T. pallidum in long-term, continuous, in vitro cultivation. While cultivation of strain SS14 was discontinued after 10 weeks, in vitro cultures of the DAL-1 strain have been ongoing for over one year. During this period, scheme of subcultures was optimized (up to 1:20). A booster passage (*), extending the standard 7-day subculture to a 14-day period with a cultivation medium exchange on day 7, was employed to enrich the treponemal culture during critical declines. In vitro cultivation was performed in triplicate (i.e., in three cultivation wells) and the mean values for each subculture are presented in graph. Source data from individual wells are shown in Supplementary Table . B Parallel cultivation for seven days ( n = 15) with defined DAL-1 inoculum (10 6 treponemes) validated the differences in growth support of individual foreskin cell lines. Treponemal growth on human foreskin fibroblast cells was slower compared to growth on rabbit epithelial Sf1Ep cells. Red bar, mean. C Human foreskin-based cultivation system supports the growth of various T. pallidum strains ( n = 8), from the Nichols-like as well as the SS14-like cluster. Note that human foreskin fibroblast cells were prepared as an equal mixture of three tested cell lines. Each T. pallidum strain was cultivated in a single in vitro well, representing a sole experimental replicate used for data acquisition

Article Snippet: Human foreskin fibroblasts HFF1 (SCRC-1041; ATCC) and HFFC (300715; Cytion) were purchased, while the third cell line (MoNa) was kindly provided by Dr. Vladimir Rotrekl (Masaryk University), and was originally obtained from the National Tissue Centre (Czech Republic).

Techniques: In Vitro