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Mouse Follicular Theca cells

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Cat. No.: CP-M205 Publications(3) Manual
Mouse Follicular Theca cells - 1
  • Mouse Follicular Theca cellsMouse Follicular Theca cells - 1
  • Mouse Follicular Theca cellsMouse Follicular Theca cells - 2
  • Mouse Follicular Theca cellsMouse Follicular Theca cells - 3
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CP-M205

$ 640.00

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5×10^5Cells/Vial

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Product Introduction

General Information
Cell Name Mouse Follicular Theca cells
Species Mouse
Tissue Ovarian follicular tissue
Growth Properties Adherent
Morphology Fibroblast-like
Isolation Method Mouse follicular theca cells isolated from Procell Laboratory are prepared by mechanical separation, followed by collagenase digestion, Percoll density gradient centrifugation and screening in specialized medium. Each vial contains approximately 5 × 10⁵ cells.
Identity Markers Mouse follicular theca cells isolated from Procell Laboratory exhibit positive immunofluorescence staining for 3β-HSD, with a purity greater than 90%. In addition, the cells test negative for HIV-1, HBV, HCV, mycoplasma, bacteria, yeast, and fungi.
Background Mouse follicular theca cells (Mus musculus)are isolated from ovarian follicular tissue. They are endocrine cells located in the outer layer of the follicle, and are divided into two subtypes: theca interna cells and theca externa cells. Theca interna cells exhibit a polygonal morphology and express steroidogenic enzymes. Their core functions include: synthesizing and secreting androgens to provide estrogen synthesis precursors for granulosa cells; participating in follicular development and maturation processes; and regulating the local ovarian microenvironment. Dysfunction of mouse follicular theca cells is closely associated with polycystic ovary syndrome and premature ovarian failure. In vitro-cultured mouse follicular theca cells serve as an important cell model for investigating ovarian endocrine function and female reproductive diseases.
Instructions 1. Check all containers for leakage or breakage.
2. Remove the frozen cells from the dry ice packaging and immediately transfer them to liquid nitrogen (liquid or vapor phase) for long-term cryopreservation.
Reagent Preparation
The culture period of Mouse Follicular Theca cells in vitro is limited; it is recommended to use the dedicated growth medium provided by Procell and follow the correct operation methods for cultivation to ensure the optimal culture state of these cells.
Product Name Cat
Mouse Follicular Theca Cell Complete Medium CM-M205
0.25% Trypsin Solution, with EDTA, dissolved in PBS PB180225
Phosphate Buffer (PBS, 1 ×) PB180327
Incubation Atmosphere Air,95%;CO₂,5%
Temperature 37℃
Subcultivation Ratio 1:2
Medium Renewal Every 2 to 3 days
Population Doublings Guaranteed to further expand for 5 population doublings
Dissociation Reagent 0.25% trypsin
Freeze Medium General Freezing Medium [PB180436]
Storage Conditions For long-term cryopreservation, cryovials should be stored in liquid nitrogen at −150°C to −196°C. Storage at −80°C is restricted to short-term interim use only.

FAQs

  • Q:1 The color of cryopreserved cells varies, with some appearing pink and others yellowish. Does this variation affect their viability after thawing?

    Answer

    This phenomenon frequently occurs between different cryopreservation batches, and is associated with cell density, cryopreservation solution composition, and pH changes induced by temperature variations. This discoloration occurs only occasionally, and does not necessarily indicate compromised cell viability. We recommend attempting cell resuscitation first to assess their condition.

  • Q:2 How can I improve the survival rate of cryopreserved cells stored at -80°C?

    Answer

    When storing cryovials, place them in the innermost compartment of the refrigerator's freezer section; avoid placing them on the door shelves or near the refrigerator opening. Additionally, we recommend using refrigerators that are opened less frequently to minimize temperature fluctuations caused by opening and closing the door.

  • Q:3 How long can cells be preserved in a -80°C freezer?

    Answer

    The preservation duration of cells at -80°C depends on the operating frequency of the refrigerator and the temperature sensitivity of the cells themselves; therefore, there is no standardized storage period. It is recommended to transfer the cells into liquid nitrogen for long-term storage as early as possible.

  • Q:4 For frozen cells transported via dry ice, should they be stored at -80°C or in liquid nitrogen upon receipt?

    Answer

    It is recommended to immediately transfer the received frozen cells into liquid nitrogen for long-term storage; storage at -80℃ should only be used as a short-term interim solution. This is because at -80℃, cellular metabolism is significantly slowed but not completely halted. In addition, frequent opening and closing of the -80℃ freezer causes temperature fluctuations that reduce cell viability.

  • Q:5 My cells are growing very slowly. What could be the cause of this?

    Answer

    Please see some common reasons below, and solutions to the issue: - Growth medium is not correct: Use pre-warmed growth medium as recommended by the supplier. - Serum in the growth medium is of poor quality: Use serum from a different lot. and choose good quality serum to ensure nutrition. - Cells have been passaged too many times: Use healthy, low-passage number cells. - Cells were allowed to grow beyond confluency: Passage mammalian cells when they are in the log-phase before they reach confluency. - Culture is contaminated with mycoplasma: Discard cells, media, and reagents. Obtain new stocks of cells, and use them with fresh media and reagents.

  • Q:6 What factors can contribute to rapid cell death/culture failure?

    Answer

    There are a number of events that can contribute to this: 1. Incorrect CO2 levels:Monitor the level of CO2 manually with a Fyrite kit, available from Bacharach. Check if the manual readings concur with the readings displayed on the incubator. If the incubator has a trace readout, check the printout for fluctuations in CO2 level. Check the settings to ensure that CO2 levels are set at appropriate levels for your cell line (usually between 5 and 10%). Check line connections frequently for leaks. Avoid frequent opening and closing of incubator doors. 2. Temperature fluctuations in the incubator:Monitor the temperature of incubator with a good thermometer inside the incubator. 3. Amphotericin B or other preventive antibiotics/antimycotics are present at toxic concentrations:Use at recommended levels. 4. Humidity is incorrect:Check the water level in the water pan. Humidity is vital to appropriate gas exchange for many types of cells and media. 5. Incorrect osmotic pressure in medium:Check osmolality of complete medium. Most mammalian cells can tolerate an osmolality of 260 to 350 mOsm/kg. Additions of reagents such as HEPES and drugs may affect osmolality. 6. Contamination by microorganisms:Bacterial and fungal contaminations are usually easily visible; symptoms of mycoplasma contamination are more subtle, and careful monitoring of culture morphology and regular testing are necessary to detect this type of contamination. 7. Inappropriate medium is being used:Double-check that the medium used is appropriate for your cell type and culture application. For example, ensure that the medium being used for serum-free culture is actually designed for serum-free culture; make sure that appropriate selective drugs are used at appropriate levels; check the expiration dates for the reagents being used; and store medium at appropriate temperatures in the dark.

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